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191. Tokarev A. Applied electrochemical methods for heterogeneous catalysis: PhD thesis. Turku bo: bo Akademi University, 2006.

192. Sulman E., Doluda V., Dzwigaj S., Marceau E., Kustov L., Tkachenko O., Bykov A., Matveeva V., Sulman M., Lakina N. Catalytic properties of Ru nanoparticles introduced in a matrix of hypercrosslinked polystyrene toward the low-temperature oxidation of D-glucose // J. Mol. Catal.

Chem. 2007. V. 278. No. 1. P. 112-119.

193. Sulman E., Matveeva V., Doluda V., Nikoshvili L., Bykov A., Demidenko G., Bronstein L.

Preparation of the polymer-stabilized and supported nanostructured catalysts // Stud. Surf. Sci. Catal. 2010. V. 175. P. 153-160.

194. Hermans S., Devillers M. On the role of ruthenium associated with Pd and/or Bi in carbon supported catalysts for the partial oxidation of glucose // Appl. Catal. Gen. 2002. V. 235. No. 1. P. 253-264.

195. Mallat T., Baiker A. Oxidation of alcohols with molecular oxygen on platinum metal catalysts in aqueous solutions // Catal. Today 1994. V. 19. No. 2. P. 247-283.

196. Vlad-Cristea M.S. Production of bioactive lactobionic acid using a Novel catalytic method: PhD hesis. Qubec: Universit Laval, 2007.

197. Karski S. Activity and selectivity of Pd-Bi/SiO2 catalysts in the light of mutual interaction between Pd and Bi // J. Mol. Catal. Chem. 2006. V. 253. No. 1. P. 147-154.

198. Karski S., Witonska I., Rogowski J., Goluchowska J. Interaction between Pd and Ag on the surface of silica // J. Mol. Catal. Chem. 2005. V. 240. No. 1. P. 155-163.

199. Karski S., Paryjczak T., Witonska I. Selective Oxidation of Glucose to Gluconic Acid over Bimetallic Pd-Me Catalysts (Me= Bi, Tl, Sn, Co) // Kinet. Catal. 2003. V. 44. No. 5. P. 678 682.

200. Karski, S., Witonska, I. Bismuth as an additive modifying the selectivity of palladium catalysts // J. Mol. Catal. Chem. 2003. V. 191. No. 1. P. 87-92.

201. Besson M., Lahmer F., Gallezot P., Fuertes P., Fleche G. Catalytic Oxidation of Glucose on Bismuth-Promoted Palladium Catalysts // J. Catal. 1995. V. 152. No. 1. P. 116-121.

202. Wenkin M., Ruiz P., Delmon B., Devillers M. The role of bismuth as promoter in Pd-Bi catalysts for the selective oxidation of glucose to gluconate // J. Mol. Catal. Chem. 2002. V. 180. No. 1. P. 141-159.

203. Abbadi A., Gotlied K.F., Meiberg J.B.M., van Bekkum H. Selective Chemo-Catalytic Oxidation of Lactose and/of Lactobionic Acid towards 1-Carboxylactulose (2-keto-Lactobionic Acid) // Appl.

Catal. Gen. 1997. V. 156. No. 1. P. 105-115.

204. Hendriks H.E.J., Kuster B.F.M., Marin G.B. The effect of bismuth on the selective oxidation of lactose on supported palladium catalysts // Carbohydr. Res. 1990. V. 204. P. 121-129.

205. Despevroux B.M., Deller K., Peldszus E. The use of precious metal catalysts supported on activated carbon in oxidation reactions for the synthesis of fine chemicals, especially for the selective oxidation of glucose to gluconic acid // New Developments in Selective Oxidation / Eds.: G. Centi, E Trifiro. Amsterdam. Elsevier, 1991. P. 159-175.

206. Bronnimann C., Bondar Z., Aeschimann R., Mallat T., Baiker A. Platinum Catalysts Modified by Adsorbed Amines: A New Method of Enhancing Rate and Selectivity of L-Sorbose Oxidation // J.

Catal. 1996. V. 161. No. 2. P. 720-729.

207. Mallat T., Bronnimann C., Baiker A. Oxidation of L-sorbose with molecular oxygen on platinum modified by metals, amines and phosphines // J. Mol. Catal. Chem. 1997. V. 117. No. 1. P.

425-438.

208. Mallat T., Bronnimann C., Baiker A. Modification of supported Pt catalysts by preadsorbed phosphines: enhanced selectivity in the oxidation of L-sorbose // Appl. Catal. Gen. 1997. V. 149. No. 1. P. 103-112.

209. Prati L., Rossi M. Chemoselective catalytic oxidation of polyols with dioxygen on gold supported catalysts // Stud. Surf. Sci. Catal. 1997. V. 110. P. 509-516.

210. Mirescu A., Pre U. A new environmental friendly method for the preparation of sugar acids via catalytic oxidation on gold catalysts // Appl. Catal. B Environ. 2007. V. 70. No. 1. P. 644-652.

211. Tokarev A.V., Murzina E.V., Kuusisto J., Mikkola J.-P., Eranen K., Murzin D.Yu. Kinetic behaviour of electrochemical potential in three-phase heterogeneous catalytic oxidation reactions // J.

Mol. Catal. Chem. 2006. V. 255. P. 199-208.

212. Tokarev A.V., Murzina E.V., Mikkola J.P. Kuusisto J., Kustov L.M., Murzin D.Yu. Application of in situ catalyst potential measurements for estimation of reaction performance: Lactose oxidation over Au and Pd catalysts // Chem. Eng. J. 2007. V. 134. No. 1. P. 153-161.

213. Kuusisto J., Tokarev A.V., Murzina E.V., Roslund M.U., Mikkola J.-P., Murzin D. Yu., Salmi T.

From renewable raw materials to high value-added fine chemicals Catalytic hydrogenation and oxidation of D-lactose // Catal. Today. 2007. V. 121. No. 1-2. P. 92-99.

214. Murzina E.V. Tokarev A.V., Kordas K., Karhu H., Mikkola J.P., Murzin D.Yu. D-Lactose oxidation over gold catalysts // Catal. Today. 2008. V. 131. No. 1. P. 385-392.

215. Kusema B.T., Campo B.C., Mki-Arvela P., Salmi T., Murzin D.Yu. Selective catalytic oxidation of arabinose. A comparison of gold and palladium catalysts // Appl. Catal. Gen. 2010. V. 386. No. 1-2. P. 101-108.

216. Biella S., Prati L., Rossi M. Selective Oxidation of D-Glucose on Gold Catalyst // J. Catal. 2002. V. 206. No. 2. P. 242-247.

217. Comotti M., Pina C. D. Matarrese R., Rossi M. The Catalytic Activity of "Naked" Gold Particles // Angew. Chem. Int. Ed. 2004. V. 43. P. 5812-5815.

218. Mirescu A., Pre U. Selective glucose oxidation on gold colloids // Catal. Comm. 2006. V.

7. No. 1. P. 11-17.

219. Yin H., Zhou C., Xu C., Liu P., Xu X., Ding Y. Aerobic oxidation of D-Glucose on Suppot-Free Nanporous Gold // J. Phys. Chem. 2008. V. 112. P. 9673-9678.

220. Onal Y., Schimpf S., Claus P. Structure sensitivity and kinetics of D-glucose oxidation to d gluconic acid over carbon-supported gold catalysts // J. Catal. 2004. V. 223. No. 1. P. 122-133.

221. Comotti M., Pina C.D. Matarrese R., Rossi M., Siani A. Oxidation of alcohols and sugars using Au/C catalysts // Appl. Catal. Gen. 2005. V. 291. No. 1. P. 204-209.

222. Comotti M., Pina C. D. Falletta E., Rossi M. Is the biochemical route always advantageous? The case of glucose oxidation // J. Catal. 2006. V. 244. No. 1. P. 122-125.

223. Mirescu A., Berndt H., Martin A. Pre U. Long-term stability of a 0.45% Au/TiO2 catalyst in the selective oxidation of glucose at optimised reaction conditions. // Appl. Catal. Gen. 2007. V. 317. No. 2. P. 204-209.

224. Thielecke N, Vorlop K.D., Pre U. Long-term stability of an Au/Al2O3 catalyst prepared by incipient wetness in continuous-flow glucose oxidation // Catal. Today. 2007. V. 122. No. 3. P.

266-269.

225. Baatz C., Decker N., Pre U. New innovative gold catalysts prepared by an improved incipient wetness method // J. Catal. 2008. V. 258. No. 1. P. 165-169.

226. Baatz C., Thielecke N, Pre U. Influence of the preparation conditions on the properties of gold catalysts for the oxidation of glucose. // Appl. Catal. B Environ. 2007. V. 70. P. 653-660.

227. Abad A., Almela C., Corma A., Garcia H. Efficient chemoselective alcohol oxidation using oxygen as oxidant. Superior performance of gold over palladium catalysts // Tetrahedron. 2006. V.

62. P. 66666672.

228. Baatz C., Pre U. Preparation of gold catalysts for glucose oxidation by incipient wetness // J.

Catal. 2007. V. 249. No. 1. P. 34-40.

229. Ishida T., Okamoto S., Makiyama R., Haruta M. Aerobic oxidation of glucose and 1 phenylethanol over gold nanoparticles directly deposited on ion-exchange resins // Appl. Catal. Gen. 2009. V. 353. No. 2. P. 243-248.

230. Ishida T., Watanabe H., Bebeko T., Akita T., Haruta M. Aerobic oxidation of glucose over gold nanoparticles deposited on cellulose // Appl. Catal. Gen. 2010. V. 377. No. 1-2. P. 42-46.

231. Ishida T., Kinoshita, N, Okatsu H., Akita T.,Takei T. 229, M. Influence of the Support and the Size of Gold Clusters on Catalytic Activity for Glucose Oxidation // Angew. Chem. Int. Ed. 2008. V. 47. P. 9265-9268.

232 Hermans S., Deffernez, A., Devillers M. Preparation of Au Pd/C catalysts by adsorption of metallic species in aqueous phase for selective oxidation // Catal. Today 2010. V. 157. No. 1-4. P. 77-82.

233. Hermans S., Deffernez A., Devillers M. Au-Pd/C catalysts for glyoxal and glucose selective oxidations // Appl. Catal. Gen. 2011. V. 395. Nos. 1-2. P. 19-27.

234. Smolentseva E., Kusema B.T. Beloshapkin S., Estrada M., Vargas, E., Murzin D.Yu., Castillon F., Fuentes S., Simakov A. Selective oxidation of arabinose to arabinonic acid over Pd Au catalysts supported on alumina and ceria // Appl. Catal. Gen. 2011. V. 392. Nos. 1-2. P. 69-79.

235. Mallat T., Baiker A., Botz L. Liquid-phase oxidation of 1-methoxy-2-propaNl with air III:

Chemical deactivation and oxygen poisoning of platinum catalysts // Appl. Catal. Gen. 1992. V.

86. No. 2. P. 147-163.

236. Baatz C., Pre U. Preparation of gold catalysts for glucose oxidation // Catal. Today. 2007. V. 122. No. 3. P. 325-329.

237. Tokarev A.V., Murzina E.V., Seelam P.K., Kumar N, Murzin D.Yu. Influence of surface acidity in lactose oxidation over supported Pd catalysts // Microporous and Mesoporous Materials. 2008. V. 113. No. 1. P. 122-131.

238. Sulman E.M, Matveeva V.G., Bronstein L.M., Sulman M.G., Doluda V.Yu., Tokarev A.V., Murzina E.V., Murzin D.Yu. Novel nano catalysts on the base of hyper-crosslinked polystyrene for carbohydrates oxidation // Stud. Surf. Sci. Catal. 2006. V. 162. P. 119-126.

239. Sidorov S.N, Volkov I.V., Davankov V.A., Tsyurupa M.P., Valetsky P.M., Bronstein L.M., Karlinsey R., Zwanziger J.W., Matveeva V.G., Sulman E.M., Lakina N.V., Wilder E.A., Spontak R.J.

Platinum-containing hyper-cross-linked polystyrene as a modifier-free selective catalyst for L-sorbose oxidation // J. Am. Chem. Soc. 2001. V. 123. No. 43. P. 10502-10510.

240. De Wilt H.G.J., van der Baan H.S. Part II. Oxidation of Glucose to K-Gluconate. Platinum Catalyzed Oxidation with Oxygen in Aqueous Alkaline Solutions // Ind. Eng. Chem. Prod. Res. Dev. 1972. V. 11. No. 4. P. 374378.

241. Abbadi A., van Bekkum H. Effect of pH in the Pt-catalyzed oxidation of D-glucose to D-gluconic acid // J. Mol. Catal. Chem. 1995. V. 97. No. 2. P. 111-118.

242. Besson M., Gallezot P. Selective oxidation of alcohols and aldehydes on metal catalysts // Catal.

Today 2000. V.57. No. 1. P. 127-141.

243. Dirkx J.M.H., van der Baan H.S. The oxidation of glucose with platinum on carbon as catalyst // J. Catal. 1981. V.67. No. 1. P. 1-13.

244 Smits P.C.C., Kuster B.F.M., van der Wiele K., van der Baan S. Lead modified platinum on carbon catalyst for the selective oxidation of (2-) hydroxycarbonic acids, and especially polyhydroxycarbonic acids to their 2-keto derivatives // Appl. Catal. 1987. V. 33. No. 1. P. 83 96.

245. Mallat T., Baiker A. Oxidation of alcohols with molecular oxygen on platinum metal catalysts in aqueous solutions // Catal. Today 1994. V. 19. No. 2. P. 247-283.

246. Pat. 1326-3387 Japan. Okada J., Morita S., Matsuda Y., Takenawa T., Yakugaku Z. 11.

05.1967. CA, 68, 96063a.

247. de Wilt H.G.J. The oxidation of glucose: PhD thesis. Netherlands, Eindhoven: Eindhoven University of Technology, 1969.

248. Gangwal V.R. van der Schaaf J., Kuster B.F.M., Schouten J.C. noble-metal-catalysed aqueous alcohol oxidation: reaction start-up and catalyst deactivation and reactivation // J. Catal. 2005. V.

232. No. 2. P. 432-443.

249. Dirkx J.M.H., van der Baan H.S. The oxidation of gluconic acid with platinum on carbon as catalyst // J. Catal. 1981. V. 67. No. 1. P. 14-20.

250. Van Dam H.E., Wisse L.J., van Bekkum H. Platinum/Carbon Oxidation Catalysts. VIII.

Selecting a Metal for Liquid-Phase Alcohol Oxidation // Appl. Catal. 1990. V. 61. P. 187-197.

251. Rottenberg M., Baertschi P. Untersuchung ber die Platin-katalysierte Autoxydation von thaNl mit Hilfe von 18O // Helv. Chim. Acta. 1956. V. 39. No. 1. P. 1973-1975.

252. de Wit G., de Vlieger J.J., Kock-van Dalen A.C., Heus R., Laroy R., van Hengstum A.J.,.

Kieboom A.P.G., van Bekkum H. Catalytic dehydrogenation of reducing sugars in alkaline solution // Carbohydr. Res. 1981. V. 91. No. 2. P. 125-138.

253. van Hengstum A.J., Kieboom A.P.G., van Bekkum H. Catalytic Transfer Hydrogenation of Glucose-Fructose Syrups in Alkaline Solution // Starch. 1984. V. 36. No. 9. P. 317-320.

254. Gallezot P. Selective oxidation with air on metal catalysts // Catal. Today. 1997. V. 37. P.

405-408.

255. Mallat T., Bondar Z., Baiker A., Greis O., Strubig H., Reller A. Preparation of Promoted Platinum Catalysts of Designed Geometry and the Role of Promoters in the Liquid-Phase Oxidation of 1 Methoxy-2-propaNl // J. Catal. 1993. V. 142. P. 237-253.

256. Wenkin M., Touillaux R., Ruiz P., Delmon, B., Devillers M. Influence of metallic precursors on the properties of carbon-supported bismuth-promoted palladium catalysts for the selective oxidation of glucose to gluconic acid // Appl. Catal. Gen. 1996. V. 148. No. 1. P. 181-199.

257. Abbadi A., van Bekkum H. Highly selective oxidation to 2-keto-aldonic acids over Pt-Bi and Pt Pb catalysts // Appl. Catal. Gen. 1995. V. 124. No. 2. P. 105-115.

258. Beltrame P., Comotti M., Pina C.D., Rossi M. Aerobic oxidation of glucose. II. Catalysis by colloidal gold // Appl. Catal. Gen. 2006. V. 297. P. 1-7.

259. Ketchie W.C., Fang Y.L., Wong M.S., Murayama M., Davis R.J. Influence of gold particle size on the aqueous-phase oxidation of carbon monoxide and glycerol // J. Catal. 2007. V. 250. No. 1.

P. 94-101.

260. Comotti M. Pina C.D., Falletta E., Rossi M. Aerobic Oxidation of Glucose with Gold Catalyst:

Hydrogen Peroxide as Intermediate and Reagent // Adv. Synth. Catal. 2006. V. 348. No. 3. P.

313-316.

261. Cant N.W. Metal crystallite size effects and low-temperature deactivation in carbon moNxide oxidation over platinum // J. Catal. 1980. V. 62. No. 1. P. 173-175.

262. Sarkany J., Gonzalez R.D. Support and dispersion effects on silica- and alumina-supported platinum catalysts: II. Effect on the CO-O2 reaction // Appl. Catal. 1983. V. 5. No. 1. P. 85-97.

263. Dijkgraaf P.J.M., Duisters H.A.M., Kuster B.F.M., van der Wiele K. Deactivation of Platinum Catalysts by Oxygen. 2. Nature of the Catalyst Deactivation // J. Catal. 1988. V. 112. P. 337-344.

264. Mallat T., Bodnar Z., Baiker A. Promotion and Deactivation of Platinum Catalysts in Liquid Phase Oxidation of Secondary Alcohols // Catalytic Selective Oxidations, ACS Symp. Series / eds.

Gyama S.T., Hightower J.W. Washington, 1993. V. 523. P. 308-317.

265. Horanyi G. Radiotracer study of the adsorption of C-14 labelled d-glucose at a platinized platinum electrode in acid medium // Electrochim. Acta. 1992. V. 37. P. 2443-2446.

266. Besson M., Fleche G., Fuertes P., Gallezot, P., Lahmer F. Oxidation of glucose and gluconate on Pt, Pt Bi, and Pt Au catalysts // Recueil des Travaux Chimiques des Pays-Bas. 1996. V. 115. No.

4. P. 217-221.

267. Gomes H.T., Orfao J.J.M., Figueiredo J.L., Faria J.L. CWAO of Butyric Acid Solutions: Catalyst Deactivation Analysis // Ind. Eng. Chem. Res. 2004. V. 43. No. 5. P. 1216-1221.

268. Van Dam H.E., Kieboom A.P.G., van Bekkum H. Pt/C oxidation catalysts. Part 1. Effect of carrier structure on catalyst deactivation during the oxidation of glucose 1-phosphate into glucuronic acid 1-phosphate // Appl. Catal. 1987. V. 33. No. 2. P. 361-372.

269. Van Dam H.E., Duijverman P., Kieboom A.P.G., van Bekkum H. Pt/C oxidation catalysts. Part 2.

Oxidation of glucose 1-phosphate into glucuronic acid 1-phosphate using diffusion stabilized catalysts // Appl. Catal. 1987. V. 33. No. 2. P. 373-382.

270. Schuurman Y., Kuster B.F.M., van der Wiele K., Marin G.B. Selective oxidation of methyl -D glucoside on carbon supported platinum: III. Catalyst deactivation // Appl. Catal. Gen. 1992. V. 89.

No. 1. P. 47-68.

271. Venema F.R., Peters J.A., van Bekkum H. Platinum-catalyzed oxidation of aldopentoses to aldaric acids // J. Mol. Catal. 1992. V. 77. No. 1. P. 75-85.

272. Pourbaix M. Atlas of Electrochemical Equilibria in Aqueous Solution. Houston: Nat. Assoc.

Corrosion, 1974. P. 378.

273. Biella S., Prati L., Rossi M. Gold catalyzed oxidation of aldehydes in liquid phase // J. Mol. Catal.

Chem. 2003. V. 197. No. 1. P. 207-212.

274. Comotti M., Pina C.D., Rossi M. Mono- and bimetallic catalysts for glucose oxidation // J. Mol.

Catal. Chem. 2006. V. 251. No. 1. P. 89-92.

275. .., .., .., .., .., .., .. , H2PtCl6 // . . 2008. . 49. No. 6. C. 936-943.

276. Semikolenov V.A., Lavrenko S.P., Zaikovskii V.I. Sintering of Pd particles on the surface of carbon support in hydrogen// React. Kinet. Catal. Lett. 1993. V. 51. No. 2. P. 507-515.

277. Moulder J.F., Stickle W.F., Sobol P.E., Bomben K.D. Handbook of X-Ray Photoelectron Spectroscopy. Eden Prairie: Perkin- Elmer, 1992. P. 261.

278. Bastl Z., Pibyl O., Mikuk P. X-ray photoelectron spectroscopic study of palladium particles on carbon surfaces // Chec. J. Phys. 1984. V. 34. No. 9. P. 981-998.

279. Mason M.G. Electronic structure of supported small metal clusters // Phys. Rev. B. 1983. V.

27. No. 2. P. 748-762.

280. Lide D.R. Handbook of chemistry and physics, 84th edn. Boca Raton: CRC Press, 2003. P.

2661.

281. Essis Yei L.H., Beden B., Lamy C. Electrocatalyc oxidation of glucose at platinum at alkaline medium: on the role of temperature // J. Electroanal. Chem. 1988. V. 246. No. 2. P. 349-362.

282. Khan M.I.A., Mirva Y., Morcita S., Okada J. Luquid-Phase Oxidation of Diethanolamine on a Pd-Al2O3 Catalyst // Chem. Pharm. Bull. 1981. V. 29. No. 7. P. 1795-1802.

283. Chuanhai X., Jie X., Wenzhong W, Xinmiao L. Pd/C-catalyzed hydrodehalogenation of aromatic halides in aqueous solutions at room temperature under Nrmal pressure // Catal. Commun. 2004. V. 5. P. 383386.

284. Heck K.N., Nutt M.O., Alvarez P., Wong M.S. Deactivation resistance of Pd/Au nanoparticle catalysts for water-phase hydrodechlorination // J. Catal. 2009. V. 267. P. 97104.

285. Haruta M., Yamada N., Kobayashi T., Iijima S. Gold catalysts prepared by coprecipitation for low-temperature oxidation of hydrogen and of carbon monxide // J. Catal. 1989. V. 115. P. 301 309.

286 Simonov P.A., Romanenko A.V., Prosvirin I.P., Kryukova G.N., Chuvillin A.L., Bogdanov S.V., Moroz E.M., Likholobov V.A. Electrochemical behaviour of quasi-graphitic carbons at formation of supported noble metal catalysts // Stud. Surf. Sci. Catal. 1998. V. 118. P. 15-30.

287. Moroz B.L., Zyuzin D.A., Zaikovskii V.I., Shmakov A.N., et al. HRTEM and PDF evidences for epitaxial of gold-support interaction in the nanodispersed Au/Al2O3 catalysts for low-temperature CO oxidation // Extended abstracts, 9th european conf. on catalysis. Salamanka (Spain): University of Madrid 2009. P 10-108 (CD-ROM).

288. Weissman-Wencur D.L., Spiecer W.E. Comapison between the catalytic activities of Pd (111) and Pd-Au (111) for water synthesis // Surf. Sci. 1983. V. 133 Nos. 2-3 P. 499-515.

289. Simonov A., Pyrjaev P., Moroz B., Bukhtiyarov V., Parmon V. Electrodeposited Pd Sub Monolayers on Carbon-Supported Au Particles of Few Nanometers in Size: Electrocatalytic Activity for Hydrogen Oxidation and CO Tolerance Vs. Pd Coverage // Electrocatalysis. 2012. V. 3. N. 2.

P. 119-131.

290. Han Y.F., Wang J.H., Kumar D., Yan Z., Goodman, D.W. A kinetic study of vinyl acetate synthesis over Pd-based catalysts: kinetics of vinyl acetate synthesis over Pd Au/SiO2 and Pd/SiO catalysts // J. Catal. 2005. V. 232 No. 2. P. 467-475.

291. Calaza F., Gao F., Li Z., Tysoe W.T. The adsorption of ethylene on Au/Pd(111) alloy surfaces // Surf. Sci. 2007. V. 601 No. 3. P. 714-722.

292. Li Z., Calaza F., Gao F., Tysoe W.T. The adsorption of acetic acid on Au/Pd(111) alloy surfaces // Surf. Sci. 2007. V. 601 No. 5. P. 1351-1357.

293. Calaza F., Li Z., Gao F., Boscoboinik J., Tysoe W.T. The adsorption and reaction of vinyl acetate on Au/Pd(111) alloy surfaces // Surf. Sci. 2008. V. 602. No. 22. P. 3523-3530.

294. Chen M., Kumar D., Yi C.-W., Goodman D.W. The Promotional Effect of Gold in Catalysis by Palladium-Gold // Science. 2005. V. 310. No. 5746 P. 291-293.

295. Ham H.C., Stephens J.A., Hwang G.S., Han J., Nam S.W., Lim T.H. Pd ensemble effects on oxygen hydrogenation in AuPd alloys: A combined density functional theory and Monte Carlo study // Catal. Today. 2011. V. 165 No. 1. P. 138-144.

296 Murzin D.Yu., Salmi T. Catalytic Kinetics // Amsterdam: Elsevier, 2005 492 p.

297 Hjek J., Murzin D.Yu. Liquid-Phase Hydrogenation of Cinnamaldehyde over a Ru-Sn Sol-Gel Catalyst. 1. Evaluation of Mass Transfer via a Combined Experimental/Theoretical Approach // Ind.

Eng. Chem. Res. 2004 V. 43. No. 9. P. 2030-2038.

298 Comotti M., Della Pina C., Matarrese R., Rossi M., The Catalytic Activity of "Naked" Gold Particles // Angew. Chem. Int. Ed. 2004. V. 116. No. 43. P. 5812-5815.

299 Della Pina C., Falletta E., Rossi M., Sacco A., Selective deactivation of gold catalyst // J. Catal. 2009. V. 263. No. 1. P. 92-97.

300. Moroz B.L., Pyrjaev P.A., Zaikovskii V.I., Bukhtiyarov V.I., Nanodispersed Au/Al2O3 catalysts for low-temperature CO oxidation: Results of research activity at the Boreskov Institute of Catalysis, Catal. Today. 2009. V. 144 Nos. 3-4. P. 292-305.

301. Pyryaev P.A., Moroz B.L., Zyuzin D.A., Nartova A.V., Bukhtiyarov V. I., Nanosized Au/C catalyst obtained from a tetraamminegold(III) precursor: Synthesis, characterization, and catalytic activity in low-temperature CO oxidation // Kinet. Catal. 2010. V. 51. No. 6. P. 885-992.

302. Pirard S.L., Diverchy C., Hermans S., Devillers M., Pirard J.-P., Job N., Kinetics and diffusional limitations in the nanostructured heterogeneous catalysts with controlled pore texture // Catal. Comm.

2011. V. 12. No. 6. P. 441-445.

303. Moulder J.F., Stickle W.F., Sobol P.E., Bomben K.D., Handbook of X-Ray Photoelectron Spectroscopy // Eden Prairie (MN, USA): Perkin-Elmer Corp., 1992.

304. .. . : , 1965 389 .

305. Temkin M.I., Transfer of dissolved matter between a turbulently moving liquids and particles suspended in it // Kinet. Catal. 1997. V. 18 P. 493-496.

306. . III . / . . .. . :

, 1964. 1005 c.

307. CRC Handbook of Chemistry and Physics, 50th Edition // ed. Weast R.C., 1969. 2356 p.

308 / . . .. : . .1. .456.

309. Reid R.C., Prausnitz J.M., Poling B.E. The Properties of Gases and Liqiuds. N.-Y.: McGraw-Hill, 2001. 768 p.

310. Welty J.R., Wicks C.E., Wilson R.E. Fundamentals of Momentum, Heat, and Mass Transfer, Third Edition. N.-Y.: John Wiley & Sons, 1984. 832 p.

311. Temkin M.I. Mathematical modeling and optimization of liquid-phase chemical processes // Proceeding of Republic Seminar. Moscow: VINITI, 1987. P. 4.

312. . 2140879 . / .., .. 1999.

313. . II . / . . .. . : , 1964. 1069 .

314. Satterfield C. N., Mass Transfer in Heterogeneous Catalysis // Cambridge: M.I.T.-Press, 1970. 267 .

315. Mills P.L., Chaudhari R.V., Multiphase catalytic reactor engineering and design for pharmaceuticals and fine chemicals // Cat. Today. 1997. V. 37. No. 4. P. 367-404.

316. Renken A., Chemical Reaction Engineering Aspects for Heterogenized Molecular Catalysts // Heterogenized Homogeneous Catalysts for Fine Chemicals Production / eds. P. Barbaro, F. Liquori Springer, 2010. P. 247-282.

317. Comotti M., Della Pina C., Falletta E., Rossi M. Is the biochemical route always advantageous?

The case of glucose oxidation // J. Catal. 2006. V. 244. No. 1. P. 122-125.

318. Comotti M., Della Pina C., Matarrese R., Rossi M., Siani A. Oxidation of alcohols and sugars using Au/C catalysts Part 2. Sugars // Appl. Catal. Gen. 2005. V. 291. P. 204-209.

319. Okatsu H., Kinoshita N., Akita T., Ishida T., Haruta M. Deposition of gold nanoparticles on carbons for aerobic glucose oxidation // Appl. Catal. Gen. 2009. V. 369. P. 8-14.

320. Antonucci P.L., Alderucci V., Giordano N., Cocke D.L., Kim H. On the role of surface functional groups in Pt carbon interaction // J. Appl. Electrochem. 1994. V. 24. P. 58-65.

321. Dudukovic M.P., Larachi F., Mills P.L. Multiphase reactors revisited // Chem. Eng. Sci. 1999.

V. 54. P. 1975-1995.

322. Vleeming J.H., Kuster B.F.M., Marin G.B. Effect of platinum particle size and catalyst support on the platinum catalyzed selective oxidation of carbohydrates // Catal. Lett. 1997. V. 46. P. 187 194.

323. Ruthiya K.C., J. van der Schaaf, Kuster B.F.M., Schouten J.C. Modeling the effect of particle-to bubble adhesion on mass transport and reaction rate in a stirred slurry reactor: influence of catalyst support // Chem. Eng. Sci. 2004. V. 59. P. 5551-5558.

324. Chuang K.T., Zhou B., Tongs S. Kinetics and Mechanism of Catalytic Oxidation of Formaldehyde over Hydrophobic Catalysts // Ind. Eng. Chem. Res. 1994. V. 33. P. 1680-1686.

325. 2007 . ;

;

, 2007.

326. Autenrieth R.L., Bonner J.S., Akgerman A., Okaygun M. et al. Biodegradation of phenolic wastes // J. Hazard. Mater. 1991. V. 28. Nos. 1-2. P. 29-53.

327. Dojilido R., Best G.A. Chemistry of waters and water pollution. N.-Y.: Ellis Horwood, 1993. 200 .

328. Andreozzi R., Caprio V., Insola A., Marotta R. Advanced oxidation processes (AOP) for water purification and recovery // Catal. Today. 1999. V. 53. No. 1. P. 51-59.

329. Fenton H.J. Oxidation of tartaric acid in presence of iron // J. Chem. Soc. 1894. V. 65. .

899-910.

330. Haber F., Weiss G. The catalytic decomposition of hydrogen peroxide by iron salts // Proc. R.

Soc. Lond. A. 1934. V. 147 P. 332-351.

331. .., .. 2, 22 // . 1995. T. 64. No. 12. P.

1183-1209.

332. Walling C. Fenton reagents revisited // Acc. Chem.Res. 1975. No. 8. P. 125-131.

333. .., .. . : , 1988. 215c.

334. De Laat J., Gallard H. Catalytic decomposition of hydrogen peroxide by Fe (III) in homogeneous aqueous solution: mechanism and kinetic modeling // Environ. Sci. Technol. 1999. V. 33. P.

2726-2732.

335. Goldstein S., Meyerstein D. Comments on the mechanism of the Fenton-like reaction //Acc.

Chem. Res. 1999. V. 32. No. 7. P. 547-550.

336. Neyens E., Baeyens J. A review of classical Fentons peroxidation as an advanced oxidation technique // J. Hazard. Mater., B. 2003. V. 98 No. 1-3. P. 33-50.

337. Salem I.A., El-Maazawi M. Zaki A.B. Kinetics and mechanisms of decomposition reaction of hydrogen peroxide in presence of metal complexes // Int. J. Chem. Kinet. 2000. V. 32. No. 11. P. 643-667.

338. Brillas E., Sires I., Oturan M.A. Electro-Fenton process and relates electrochemical technologies based on Fentons reaction chemistry // Chem. Rev. 2009. V. 109. P. 6570-6631.

339. .. - . . . - . . , 1970. 450 .

340. Wang L., Aiduo K., Chen B., Ding H. et al. Direct synthesis, characterization of Cu-SBA-15 and its high catalytic activity in hydroxylation of phenol by H2O2 // J. Molec. Catal. A. 2005. V. 230. P. 143-150.

341. Kwon B.G., Lee D.S., Kang N., Yoon J. Characteristic of p-chlorophenol oxidation by Fentons reagent // Water. Res. 1999. V. 33. - No. 9. P. 2110-2118.

342. San Sebastan N., Fguls J., Font A., Snchez A. Pre-oxidation of an extremely polluted industrial wastewater by the Fentons reagent // J. Hazard. Mater. 2003. V. 101. No. 3. P. 315-322.

343. Rivas F.J., Beltrn F.J., Gimeno O., Frades J. Treatment of olive oil mill wastewater by Fentons reagent // J. Agric. Food Chem. 2001. V. 49. No. 4. P. 1873-1880.

344. Bautista P., Mohedano A.F., Gilarranz M.A. et al. Application of Fenton oxidation to cosmetic wastewater treatment // J. Hazard. Mater. 2007. V. 143. No. 1-2. P. 128-134.

345. Zazo J.A., Casas J.A., Mohedano A.F., Gilarranz M.A., Rodriguez J.J. Chemical pathway and kinetics of phenol oxidation by Fentons reagent // Environ. Sci. Technol. 2005. V. 39. No. 23. P. 9295-9302.

346. Rodriguez M.L., Timokhin V.I., Contreras S., Chamarro E. et al. Rate equation for the degradation of nitrobenzene by Fenton-like reagent // Adv. Environ. Res. 2003. V. 7. No. 2. P. 583-595.

347. Pera-Titus M., Garca-Molina V., Baos M.A. et al. Degradation of chlorophenols by advanced oxidation processes : a general review // Appl. Catal. B. 2004. V. 47. No. 4. P. 219-256.

348. Rivas F.J., Beltran F.J., Frades J., Buxeda P. Oxidation of p-hydroxybenzoic acid by fentons reagent // Wat. Res. 2001. V. 35. No. 2. P. 387-396.

349. Sedlak D.L., Andren A.W. oxidation of chlorobenzene with Fentons reagent // Environ. Sci.

Technol. 1991. V. 25. No. 4. P. 777-782.

350. Seldak D.L., Andren A.W. Aqueous-phase oxidation of polychlorinated biphenyls by hydroxyl radicals // Environ. Sci. Technol. 1991. V. 25. No. 8. P. 1419-1427.

351. Yoshida M., Lee B.-D., Homosi M. Decomposition of aqueous tetrachloroethylene by Fenton oxidation treatment // Water Sci. Technol. 2000. V. 42. Nos. 1-2. P. 203-208.

352. Sinha A., Chakrabarti S., Chaudhuri B., Bhattacharjee S. et al. Oxidative degradation of strong acetic acid liquor in wastewater emanating from hazardous industries // Ind. Eng.Chem. Res. 2007. V. 46. No. 10. P. 3101-3107.

353. Debellefontaine H., Chakchouk M., Foussard J.N. Tissot D. et al. Treatment of organic aqueous wastes : wet air oxidation and wet peroxide oxidation // Environ. Pollut. 1996. V. 92. No. 2. P.

155-164.

354. Bautista P., Mohedano A.F., Casas J.A., Zazo J.A. et al. Review. An overview of the application of Fenton oxidation to industrial wastewaters treatment // J. Chem. Technol. Biotechnol. 2008. V.

83. No. 10. P. 1323-1338.

355. Vilhunen S., Sillanp M. Recent development in photochemical and chemical AOPs in water treatment: a mini-review // Rev. Environ. Sci. Biotechnol. 2010. V. 9. P. 323-330.

356. Patent 7704399 US. Hydrogen peroxide based water treatment system and method / Condit R.G.

2010.

357. Patent 7666315 US. Methods, devices and reagent for wastewater treatment / Lopez Martinez J.M., Puente de Vera F., Munoz L.M. Escala P.V. 2010.

358. Patent 7220360 US. Integrated technology in sequential treatment of organics and heavy metal ions wastewater / Chen H.-T., Tsai M.-Sh., Chang J.-E., Ln T.-F. et al. 2007.

359. Patent 7166227 US. Method of treating digested sludge. Karlsson G., Karsson I., Pettersson L.

Recktenwald M. et al. 2007.

360. Patent 6143182 US. Process for chemical oxidizing wastewater with reduced sludge production / Huang Y.-H., Huang G.-H., Chou Sh.-Sh., You H.-S. et al. 2000.

361. Patent 5043080 US. Treating contaminated effluents and groundwaters / Carter S.R., Brown P.M., Buckley J.A., Stevens R.D.S 1991.

362. Patent 5205940 US. Iron (III) salt-catalyzed oxidation of waste water / Graetzel M. 1993.

363. Pestunova O.P., Elizarova G.L., Ismagilov Z.R., Kerzhentsev M.A. et al. Detoxication of water containing 1,1-dimethylhydrazine by catalytic oxidation with dioxygen and hydrogen peroxide over Cu- and Fe-containing catalysts // Catal. Today. 2002. V. 75. Nos. 1-4. P. 219-225.

364 Botas J.A., Melero J.A., Martinez F., Pariente M.I. Assessment of Fe2O3/SiO2 catalysts for the continuous treatment of phenol aqueous solutions in a fixed bed reactor // Catal. Today. 2010. V.

149. Nos. 3-4. P. 334-340.

365. Massa P., Dafinov A., Cabello F.M., Fenoglio R. Catalytic wet peroxide oxidation of phenolic solutions over Fe2O3/CeO2 and WO3/CeO2 catalyst systems // Catal. Commun. 2008. V. 9. No. 7.

P. 1533-1538.

366. Qiu Z., He Y., Liu X., Yu S. Catalytic oxidation of the dye wastewater with hydrogen peroxide // Chem. Eng. Process. 2005. V. 44. No. 9. P. 1013-1017.

367 Oliveira L.C.A., Conalves, Guerreiro M.C., Ramalho T.C. et al. A new catalyst material based on niobia/iron oxide composite on the oxidation of organic contaminants in water via heterogeneous Fenton mechanism // Appl. Catal. A. 2007. V. 316. No. 1. P. 117-124.

368. Liu Y., Sun D. Effect of CeO2 doping on catalytic activity of Fe2O3/-Al2O3 catalyst for catalytic wet peroxide oxidation of azo dyes // J. Hazard. Mater. 2007. V. 143. Nos. 1-2. P. 448-454.

369. Chou S., Huang C. Application of a supported iron oxyhydroxide catalyst in oxidation of benzoic acid by hydrogen peroxide // Chemosphere. 1999. V. 38. No. 12. P. 2719-2131.

370. Nardello V., Aubry J.-M., De Vos D.E., Neumann R. et al. Inorganic compounds and materials for oxidations with aqueous hydrogen peroxide // J. Molec. Catal. A. 2006. V. 251. Nos. 1-2. P.

185-193.

371. Gao F., Hua R. An efficient polyoxovanadate-catalyzed oxidative mineralization of phenols with 30 % aqueous H2O2 // Catal. Commun. 2006. V. 7. No. 6. P. 391-393.

372. Sotelo J.L., Ovejero G., Martinez F., Melero J.A. et al. Catalytic wet peroxide oxidation of phenolic solutions over a LaTi1-xCuxO3 perovskite catalyst // Appl. Catal. B. 2004. V. 47. No. 4.

P. 281-294.

373. Timofeeva M.N., Khankhasaeva S.Ts., Talsi E.P., Panchenko V.N. et al. The effect of Fe/Cu ratio in the synthesis of mixed Fe, Cu, Al-clays as catalysts in phenol peroxide oxidation // Appl. Catal. B. 2009. V. 90. Nos. 3-4. P. 618-627.

374. Molina C.B., Casas J.A., Zazo J.A., Rodrguez J.J. A comparison of Al-Fe and Zr-Fe pillared clays for catalytic wet peroxide oxidation // Chem. Eng. J. 2006. V. 118. Nos. 1-2. P. 29-35.

375. Guo J., Al-Dahhan M. Catalytic wet oxidation of phenol by hydrogen peroxide over pillared clay catalyst // Ind. Eng. Chem. Res. 2003. V. 42. No. 12. P. 2450-2460.

376. Caudo S., Centi G., Genovese G., Perathoner S. Copper- and iron-pillared clay catalysts for the WHPCO of model and real wastewater streams from olive oil milling production // Appl. Catal. B. 2007. V. 70. Nos. 1-4. P. 437-446.

377. Barrault J., Abdellaoui M., Bouchoule C., Majeste A. et al. Catalytic wet peroxide oxidation over mixed (Al-Fe) pillared clays // Appl. Catal. B. 2000. V. 27. No. 4. P. 749-754.

378. Kim S.-C., Lee D.-K. Preparation of Al-Cu pillared clay catalysts for the catalytic wet oxidation of reactive dyes // Catal. Today. 2004. V. 97. Nos. 2-3. P. 153-158.

379. Achma R. Ben, Ghorbel A., Dafinov A., Medina F. Copper-supported pillared clay catalysts for the wet hydrogen peroxide catalytic oxidation of model pollutant tyrosol // Appl. Catal. A. 2008. V. 349. Nos. 1-2. P. 20-28.

380. Mojovic Z., Bankovic P., Milutinovic-Nikolic A., Dostanic J. et al. Al, Cu-pillared clays as catalysts in environmental protection // Chem. Eng. J. 2009. V. 154. Nos. 1-3. P. 149-155.

381. Mei J.G., Yu S.M., Cheng J. Heterogeneous catalytic wet peroxide oxidation of phenol over delaminated Fe-Ti-PILC employing microwave irradiation // Cat. Commun. 2004. V. 5. No. 8. P. 437-440.

382. Kondru A. K. Kumar P., Chand Sh. Catalytic wet peroxide oxidation of azo dye (Congo red) using modified Y zeolite as catalyst // J. Hazard. Mater. 2009. V. 166. No. 1. P. 342-347.

383. Phu N.H., Hoa T.T.K., Tan N.V., Thang H.V. et al. Characterization and activity of Fe-ZSM- catalysts for the total oxidation of phenol in aqueous solutions // Appl. Catal. B. 2001. V. 34. No.

4. P. 267-275.

384. Centi G., Perathoner S., Torre T., Verduna M.G. Catalytic wet oxidation with H2O2 of carboxylic acids on homogeneous and heterogeneous Fenton-type catalysts // Catal. Today. 2000. V. 55. Nos. 1-2. P. 61-69.

385. Dukkanci M., Gunduz G., Yilmaz S., Yaman Y.C. et al. Characterization and catalytic activity of CuFe-ZSM-5 catalysts for oxidative degradation of Rhodamine 6G in aqueous solutions // Appl. Catal.

B. 2010. V. 95. Nos. 3-4. P. 270-278.

386. Parkhomchuk E.V., Vanina M.P., Preis S. The activation of heterogeneous Fenton-type catalysts Fe-MFI // Catal. Commun. 2008. V. 9. No. 3. P. 381-385.

387. Liou R.-M., Chen Sh.-H., Hung M.- Y., Hsu Ch.-Sh. et al. // Fe (III) supported on resin as effective catalyst for the heterogeneous oxidation of phenol in aqueous solution. Chemosphere. 2005.

V. 59. No. 1. P. 117-125.

388. Castro I.U., Stber F., Fabregat A., Font J. et al. Supported Cu(II) polymer catalysts for aqueous phenol oxidation // J. Hazard. Mater. 2009. V. 163. Nos. 2-3. P. 809-815.

389. Crowther N., Larachi F. Iron-containing silicalites for phenol catalytic peroxidation // Appl.

Catal. B. 2003. V. 46. No. 2. P. 293-305.

390. Liou R.-M., Chen S.-H. CuO impregnated activated carbon for catalytic wet peroxide oxidation of phenol // J. Hazard. Mater. 2009. V. 172. No. 1. P. 498-506.

391. Bautista P., Mohedano A.F., Menndez N., Caas J.A. Catalytic wet peroxide oxidation of cosmetic wastewater with Fe-bearing catalysts // Catal. Today. 2010. V. 151. Nos. 1-2. P. 148 152.

392. Ramirez J.H., Maldonado-Hdar F.J., Prez-Cadenas A.F., Moreno-Castila C. et al. Azo-dye Orange II degradation by heterogeneous fenton-like reaction using carbon-Fe catalysts // Appl. Catal.

B. 2007 V. 75. Nos. 3-4. P. 312-323.

393. Zazo J.A., Casas J.A., Mohedano A.F., Rodrguez J.J. Catalytic wet peroxide oxidation of phenol with a Fe/active carbon catalyst // Appl. Catal. B. 2006. V. 65. Nos. 3-4. P. 261-268.

394. Rey A., Faraldos M., Casas J.A., Zazo J.A. et al. Catalytic wet peroxide oxidation of phenol over Fe/AC catalysts: influence of iron precursor and activated carbon surface //Appl. Catal. B. 2009. V.

86. Nos. 1-2. P. 69-77.

395. Dhaouadi A., Adhoum N. Heterogeneous catalytic wet peroxide oxidation of paraquat on the presence of modified activated carbon // Appl. Catal. B. 2010. V. 97. Nos. 1-2. P. 227-235.

396. Lcking F., Kser H., Jank M., Ritter A. Iron powder, graphite and activated carbon as catalysts foe the oxidation of 4-chlorophenol with hydrogen peroxide in aqueous solution // Water Res. 1998.

V. 32. No. 9. P. 2607-2614.

397. Li J., Gu J., Liang Y., Hao Y. Synthesis of highly ordered Fe-containing mesoporous carbon materials using soft templating routes // Microporous Mesoporous Mater. 2010. V. 128. Nos. 1-3.

P. 144-149.

398. .., .., .. 1.1 . // .

. 1999. - . 72. 7. . 1147-1151.

399 Yuranova T., Enea O., Mielczarski E., Mielczarski J. et al. Fenton immobilized photo-assisted catalysis through a Fe/C structured fabrics // Appl. Catal. B. 2004. V. 49. No. 1. P. 39-50.

400. Perathoner S., Centi G. Wet hydrogen peroxide catalytic oxidation (WHPCO) of organic waste in agro-food and industrial streams // Top. Catal. 2005. V. 33. Nos. 1-4. P. 207-224.

401. Makhotkina O.A., Kuznetsova E.V., Preis S.V. Catalytic detoxication of 1,1-dimethylhydrazine aqueous solutions in heterogeneous Fenton system // Appl. Catal. B. 2006. V. 68. Nos. 1-3. P.

85-91.

402. Fajerwerg K., Debellefontaine H. Wet oxidation of phenol by hydrogen peroxide using heterogeneous catalysis Fe-ZSM-5: a promising catalyst // Appl. Catal. B. 1996. V. 10. No. 4. P. L229-L235.

403. Mui E.L.K., Ko D.C.K., McKay G. Production of active carbon from waste tyres a review // Carbon. 2004. V. 42. No. 14. P. 2789-2805.

404. Ioannidou O., Zabaniotou A. Agricultural residues as precursors for activated carbon production A review // Renewable Sustainable Energy Rev. 2007. V. 11. No. 9. P. 1966-2005.

405. Dias J.M, Alvim-Ferraz M.C.M., Almeida M.F., Rivera-Utrilla J. et al. Waste materials for activated carbon preparation and its use in aqueous-phase treatment: A review // J. Environ. Manage. 2007. V. 85. No. 4. P. 833-846.

406. Chattopadhyaya G., Macdonald D.G., Bakhshi N.N., Soltan Mohammadzaden J.S. et al.

Preparation and characterization of chars and activated carbon from Saskatchewan lignite. Fuel Process. Technol. 2006. V. 87. No. 11. P. 997-1006.

407. Zazo J.A., Fraile A.F., Rey A., Bahamonde A. et al. Optimizing temperature of Fe/activated carbon catalysts for CWPO // Catal. Today. 2009. V. 143. Nos. 3-4. P. 341-346.

408. Kan E., Huling S.G. Effects of temperature and acidic pre-treatment on Fenton-driven oxidation of MTBE-spent granular activation carbon // Environ. Sci. Technol. 2009. V. 43. P. 1493-1499.

409. Huang H.-H., Lu M.-C., Chen J.-N., Lee C.-T. Influence of surface modification on catalytic activity of activated carbon toward decomposition of hydrogen peroxide and 2-chlorophenol // J.

Environ. Sci. Health, A. 2003. V. 38. No. 7. P. 1233-1246.

410. Huang H.-H., Lu M.-C., Chen J.-N., Lee C.-T. Catalytic decomposition of hydrogen peroxide and 4-chlorophenol in the presence of modified activated carbons // Chemosphere. 2003. - V. 51. No.

9. P. 935-943.

411. Gomes H.T., Miranda S.M., Sampaio M.I., Silva A.M.T. Activated carbon treated with sulphuric acid: catalysts for catalytic wet peroxide oxidation // Catal. Today. 2010. V. 151. Nos. 1-2. P.

153-158.

412. Oliveira L.C.A., Silva C.N., Yoshida M.I., Lago R.M. The effect of H2 treatment on the activity of activated carbon for the oxidation of organic contaminants in water and the H2O2 decomposition // Carbon. - 2004. - V. 42. - N. 11. - . 2279-2284.

413. Rey A., Faraldos M., Bahamonde A., Casas J.A. et al. Role of the activated carbon surface on catalytic wet peroxide oxidation // Ind. Eng. Chem. Res. - 2008. - V. 47. - P. 8166-8174.

414. Khalil L.B., Girgis B.S., Tawfik T.A.M. Decomposition of H2O2 on activated carbon obtain from olive stones // J. Chem. Technol. Biotechnol. 2001. V. 76. No. 11. P. 1132-1140.

415. Santos V.P., Pereira M.F.R., Faria P.C.C., rfo J.J.M. Decolourisation of dye solutions by oxidation with H2O2 in the presence of modified activated carbons // J. Hazard. Mater. 2009. V.

162. Nos. 2-3. P. 736-742.

416. Georgi A., Kopinke F.D. Interaction of adsorption and catalytic reactions in water decontamination process. Part I. Oxidation of organic contaminants with hydrogen peroxide catalyzed by activated carbon // Appl. Catal. B. 2005. V. 58. Nos. 1-2. P. 9-18.

417. Patent 2665249 US. Wet air oxidation of hazardous organics in wastewater / Zimmermann F.J.

1954.

418. Patent 3386922 US. Wet air oxidation of combustible materials adsorbed on carbonaceous adsorbent / Schoeffel E.W., Zimmermann F.J. 1968.

419. Luck F. Wet air oxidation: past, present and future // Catal. Today. 1999. V. 53. No. 1. P.

81-91.

420. Introducing the next evolution of water technologies / Evoqua water technologies. [ ] URL;

http://www.water.siemens.com/en/Pages/default.aspx.

421. Mishra V.S., Mahajani V.V., Joshi J.B. Wet air oxidation // Ind. Eng. Chem. Res. 1995. V. 34.

No. 1. P. 2-48.

422. Hu X., Lei L., Chu H.P., Yue P.L. Copper/activated carbon as catalyst for organic wastewater treatment // Carbon. 1999. V. 37. No. 4. P. 631-637.

423. Chu H.P., Lei L., Hu X., Yue P.L. Metallo-organic chemical vapor deposition (MOCVD) for the development of heterogeneous catalyst // Energy Fuels. 1998. V. 12. P. 1108-1113.

424. Gallezot P., Chaumet S., Perrard A, Isnard P. Catalytic wet air oxidation of acetic acid on carbon supported ruthenium catalysts // J. Catal. 1997. V. 168. No. 1. P. 104-109.

425. Bhargava S.K., Tardio J., Prasad J., Fger K. et al. Wet oxidation and catalytic wet oxidation // Ind. Eng. Chem. Res. 2006. V. 45. No. 4. P. 1221-1258.

426. Luck F. A review of industrial catalytic wet air oxidation process // Catal. Today. 1996. V. 27.

Nos. 1-2. P. 195-202.

427. Matatov-Meytal Y.I., Sheintuch M. Catalytic abatement of water pollutants // Ind. Eng. Chem.

Res. 1998. V. 37. No. 2. P. 309-326.

428. Kolaczkowski S.T, Plucinski P., Beltran F.J., Rivas F.J. et al. Wet air oxidation: a review of process technologies and aspects in reactor design // Chem. Eng. J. 1999. V. 73. No. 2. P. 143 160.

429. Imamura S. Catalytic and Nncatalytic wet oxidation // Ind. Eng. Chem. Res. 1999. V. 38. No. 5. P. 1743-1753.

430. Debellfontaine H., Foussard J.N. Wet air oxidation for the treatment of industrial wastes.

Chemical aspects, reactor design and industrial applications in Europe // Waste manage. 2000. V.

20. No. 1. P. 15-25.

431. Oliviero L., Barbier J., Duprez D. Wet air oxidation of nitrogen-containing organic compounds and ammonia in aqueous media // Appl. Catal. B. 2003. V. 40. No. 3. P. 163-184.

432. Pintar A. Catalytic process for the purification of drinking water and industrial effluents // Catal.

Today. 2003. V. 77. No. 4. P. 451-465.

433. Stber F., Font J., Fortuny A., Bengoa C. et al. Carbon materials and catalytic wet air oxidation of organic pollutants in wastewater // Top. Catal. 2005. V. 33. No. 1. P. 3-50.

434. Levec J., Pintar A. Catalytic wet-air oxidation processes: A review // Catal. Today. 2007. V.

124. Nos. 3-4. P. 172-184.

435. Zou L.Y., Li Y., Hung Y-T. Wet air oxidation for waste treatment // Advanced physicochemical treatment technologies / eds. L.K. Wang, Y.-T. Hung, N.K. Shammas. Totowa;

New Jersey: Humana Press, 2007. V.

5. P. 575-610.

436. Kim K.-H., Ihm S.-K. Heterogeneous catalytic wet air oxidation of refractory organic pollutants in industrial wastewaters: A review // J. Hazard. Mater. 2011. V. 186. No. 1. P. 16-34.

437. Chang C.J., Lin J.-C., Chen C.-K. Effects of temperature and Cu2+ catalyst on liquid-phase oxidation of industrial waste waters // J. Chem. Tech. Biotechnol. 1993. V. 57 No. 4. P. 355 361.

438. Hu X., Lei L., Chen G., Yue P.L. Research note on the degradability of printing and dyeing wastewater by wet air oxidation // Water Res. 2001. V. 35. No. 8. P. 2078-2080.


439. Alejandre A., Medina F., Fortuny A., Salagre P. et al. Characterisation of copper catalysts and activity for the oxidation of phenol aqueous solution // Appl. Catal, B. 1998. V. 16. No. 1. P.

53-67.

440. Akyurtlu J.F., Akyurtlu A., Kovenklioglu S. Catalytic oxidation of phenol in aqueous solutions // Catal. Today. 1998. V. 40. No. 4. P. 343-352.

441. Arena F., Giovenco R., Torre T., Venuto A. et al. Activity and resistance to leaching of Cu-based catalysts in the wet oxidation of phenol // Appl. Catal. B. 2003. V. 45. No. 1. P. 51-62.

442. Silva A.M.T., Castelo-Branco I. M., Quinta-Ferreira R. M., Levec J. Catalytic studies in wet oxidation of effluents from formaldehyde industry // Chem. Eng. Sci. 2003. V. 58. Nos. 3-6. P.

963-970.

443. Alolekar D.B., Bhargava S.K., Shirgoankar I., Prasad J. Catalytic wet oxidation: an environmental solution for organic pollutant removal from paper and pulp industrial waste liquor // Appl. Catal. A. 2002. V. 236. Nos. 1-2. P. 255-262.

444. Han L., Zhu J., Kang J., Liang Y. et al. Catalytic wet air oxidation of high-strenght organic coking wastewater // Asia-Pac. J. Chem. Eng. 2009. V. 4. No. 5. P. 624-627.

445. Imamura S., Hirano A., Kawabata N. Wet oxidation of acetic acid catalyzed by Co-Bi complex oxides // Ind. Eng. Chem. Prod. Res. Dev. 1982. V. 21. No. 4. P. 570-575.

446. Pintar A., Levec J. Catalytic liquid-phase oxidation of refractory organics in waste water // Chem.

Eng. Sci. 1992. V. 47. Nos. 9-11. P. 2395-2400.

447. Matatov-Meytal Y.I., Sheintuch M. Catalytic abatement of water pollutants // Ind. Eng. Chem.

Res. 1998. V. 37. No. 2. P. 309-326.

448. Mantavinos D., Hellenbrand R., Livingston A.G., Metcalfe I.S. Catalytic wet oxidation of p coumaric acid: Partial oxidation intermediates, reaction pathways and catalyst leaching // Appl. Catal.

B. 1996. V. 7. Nos. 3-4. P. 379-396.

449. Santos A., Yustos P., Quintanilla A., Ruiz G. et al. Study of the copper leaching in the wet oxidation of phenol with CuO-based catalysts : causes and effects // Appl. Catal. B. 2005. V. 61. Nos. 3-4. P. 323-333.

450. Njiribeako A.I., Hudgins R.R., Silverston P.L. Catalytic oxidation of phenol in aqueous solution over copper oxide // Ind. Eng. Chem. Fundam. 1978. V. 17. No. 3.- P. 234.

451. Duprez D., DelaN F., Barbier J., Isnard P. et al. Catalytic oxidation of organic compounds in aqueous media // Catal. Today. 1996. V. 29. Nos. 1-4. P. 317-322.

452. Hamoudi S., Larachi F., Sayari A. Wet oxidation of phenolic solutions over heterogeneous catalysts : degradation profile and catalyst behaviour // J. Catal. 1998. V. 177. P. 247-258.

453. Imamura S., Nakamura M., Kawabata N., Yochida J.-I. Wet oxidation of poly(ethylene glycol) catalyzed by manganese-cerium composite oxide // Ind. Eng. Chem. Prod. Res. Dev. 1986. V. 25. No. 1. P. 34-37.

454. Chen H., Sayari A., Adnot A., Larachi F. Composition-activity effects of Mn-Ce-O composities on phenol catalytic wet oxidation // Appl. Catal. B. 2001. V. 32. No. 3. P. 195-204.

455. Besson M., Gallezot P. Stability of ruthenium catalysts supported on TiO2 or ZrO2 in catalytic wet air oxidation // Top. Catal. 2005. V. 33. No. 1. P. 101-108.

456. Barbier J., Delano F., Jabouille F., Duprez D. et al. Total oxidation of acetic acid in aqueous solution over noble metal catalysts // J. Catal. 1998. V. 177. No. 2. P. 378-385.

457. Perkas N., Pham Minh D., Gallezot P., Gedanken A., Besson M. Platinum and ruthenium catalysts on mesoporous titanium and zirconium oxides for the catalytic wet air oxidation of model compounds // Appl. Catal. B. 2005. V. 59. Nos. 1-2. P. 121-130.

458. Imamura S., Fukuda I., Ishida S. Wet oxidation catalyzed by ruthenium supported on cerium (IV) oxidas // Ind. Eng. Chem. Res. 1988. V. 27. No. 4. P. 718-721.

459. Besson M., Kallel A., Gallezot P., Zanella R. et al. Gold catalysts supported on titanium oxide for catalytic wet air oxidation of succinic acid // Catal. Commun. 2003. V. 4. No. 9. P. 471-476.

460. Barbier J., Oliviero L., Renard B., Duprez D. Role of ceria-supported noble metal catalysts (Ru, Pd, Pt) in wet air oxidation of nitrogen and oxygen containing compounds // Top. Catal. 2005. V.

33. Nos. 1-4. P. 77-86.

461. Bziat J.-Ch., Besson M., Gallezot P., Durcu S. Catalytic wet air oxidation on a Ru/TiO2 catalyst in a tricle-bed reactor // Ind. Eng. Chem. Res. 1999. V. 38. No. 4. P. 1310-1315.

462. Gallezot P., Laurain N., Isnard P. Catalytic wet-air oxidation of carboxylic acids on carbon supported platinum catalysts // Appl. Catal. B. 1996. V. 9. Nos. 1-4. P. L11-L17.

463. Lee D.-K., Kim D.-S. Catalytic wet air oxidation of carboxylic acids at atmospheric pressure // Catal. Today. 2000. V. 63. Nos. 2-4. P. 249-255.

464. Pintar A., Batista J., Tisler T. Catalytic wet-air oxidation of aqueous solution of formic acid, acetic acid and phenol in a continuous-flow trickle-bed reactor over Ru/TiO2 catalysts // Appl. Catal.

B. 2008. V. 84. Nos. 1-2. P. 30-41.

465. Castillejos-Lpez E., Maroto-Valiente A., Nevskaia D.M., Muoz V., Rodrguez-Ramos I., Guerrero-Ruiz a. Comparative study of support effects in ruthenium catalysts applied for wet air oxidation of aromatic compounds // Catal. Today. 2009. V. 143. Nos. 3-4. P. 355-363.

466. Oliviero L., Barbier J., Duprez D., Guerrero-Ruiz A., Bachiller-Baeza B., Rodrguez-Ramos I.

Catalytic wet air oxidation of phenol and acrulic acid over Ru/C and Ru-CeO2/C catalysts //Appl.

Catal. B. 2000. V. 25. No. 4. P. 267-275.

467. Keav S., Martin A., Barbier J., Duprez D. Deactivation and reactivation of noble metal catalysts tested in the Catalytic Wet Air Oxidation of phenol // Catal. Today. 2010. V. 151. Nos. 1-2. P.

143-147.

468. Wang J., Zhu W., Yang S., Wang W., Zhou Y. Catalytic wet air oxidation of phenol with peletized ruthenium catalysts // Appl. Catal. B. 2008. V. 78. Nos. 1-2. P. 30-37.

469. Lee D.K., Cho J.S., Yoon W.L. Catalytic wet oxidation of ammonia: why is N2 formed preferentially against NO3- ? Chemosphere. 2005. V. 61. P. 573-578.

470. Pintar A., Besson M., Gallezot P. Catalytic wet air oxidation of Kraft bleaching plant effluents in the presence of titania and zirconia supported ruthenium // Appl. Catal. B. 2001. V. 30. Nos. 1-2.

P. 123-139.

471. Pintar A., Beri G., Besson M., Gallezot P. Catalytic wet-air oxidation of industrial effluents:

total mineralization of organics and lumped kinetic modelling // Appl. Catal. B. 2004. V. 47. No.

3. P. 143-152.

472. Ukropec R., Kuster B.F.M., Schouten J.C., van Santen R.A. Low temperature oxidation of ammonia to nitrogen in liquid phase // Appl. Catal. B. 1999. V. 23. No. 1. P. 45-57.

473. Qin J., Zhang Q., Chuang K.T. Catalytic wet oxidation of p-chlorophenol over supported noble metal catalysts // Appl. Catal. B. 2001. V. 29. No. 2. P. 115-123.

474. Cao S., Chen G., Hu X., Yue P.L. Catalytic wet air oxidation of wastewater containing ammonia and phenol over activated carbon supported Pt catalysts // Catal. Today. 2003. V. 88. Nos. 1-2. P. 37-47.

475. Cybulski A., Trawczyski J.. Catalytic wet air oxidation of phenol over platinum and ruthenium catalysts // Appl. Catal. B. 2004. V. 47. No. 1. P. 1-13.

476. Masende Z.P.G., Kuster B.F.M., Ptasinski K.J., Janssen F.J.J.G. Support and dispersion effect on activity of platinum catalysts during wet oxidation of organic wastes // Top. Catal. 2005. V. 33. Nos. 1-4. P. 87-99.

477. Torre T., Aric A.S., Alderucci V., Antonucci V. et al. Analysis of the surface acid-based characteristics of Pt/C catalysts for phosphoric acid fuel cells // Appl. Catal. A. 1994. V. 114. No.

2. P. 257-272.

478. Serp Ph., Corrias M., Kalck Ph. Carbon nanotubes and nanofibers in catalysis // Appl. Catal. A. 2003. V. 253. No. 2. P. 337-358.

479. Garcia J., Gomes H.T., Serp P., Kalck P. et al. Platinum catalysts supported on MWNT for catalytic wet air oxidation of nitrogen containing compounds // Catal. Today. 2005. V. 102-103. P. 101-109.

480. Gomes H.T., Samant P.V., Serp Ph., Kalck Ph. Carbon nanotubes and xerogels as support of well dispersed Pt catalysts for environment applications // Appl. Catal. B. 2004. V. 54. P. 175-182.

481. Ovejero G., Sotelo J.L., Romero M.D., Rodrguez A. et al. Multiwalled carbon nanotubes for liquid-phase oxidation. Functionalization, characterization, and catalytic activity // Ind. Eng. Chem.

Res. 2006. V. 45. No. 7. P. 2206-2212.

482. Tang T., Yin Ch., Xiao N., Guo M. Et al. High activity in catalytic oxidation of benzyl alcohol with molecular oxygen over carboxylic-functionalized carbon nanofuber-supported ruthenium catalysts // Catal. Lett. 2009. V. 127. Nos. 3-4. P. 400-405.

483. Taboada C.D., Batista J., Pintar A., Levec J. Preparation, characterization and catalytic properties of carbon nanofiber-supported Pt, Pd, Ru monometallic particles // Appl. Catal. B. 2009. V. 89. Nos. 3-4. P. 375-382.

484. Alvarez P.M., McLurgh D., Plucinski P. Copper oxide mounted on activated carbon as catalyst for wet air oxidation of aqueous phenol. 1. Kinetic and mechanistic // Ind. Eng. Chem.. Res. 2002. V. 41. No. 9. P. 2147-2152.

485. Alvarez P.M., McLurgh D., Plucinski P. Copper oxide mounted on activated carbon as catalyst for wet air oxidation of aqueous phenol. 2. Catalyst stability // Ind. Eng. Chem. Res. 2002. V. 41. No. 9. P. 2153-2158.


486. Rodriquez ., Ovejero G., Romero M.D., Diaz C. et al. Catalytic wet air oxidation of textile industrial wastewater using supported on carbon nanofibers // J. Supercrit. Fluids. 2008. V. 46. P.

163-172.

487. Quintanilla A., Casas J.A., Zazo J.A., Mohedano A.F. et al. Wet air oxidation of phenol at mild conditions with a Fe/activated carbon catalyst // Appl. Catal. B. 2006. V. 62. Nos. 1-2. P. 115 120.

488. Quintanilla A., Casas J.A., Mohedano A.F., Rodriguez J.J. Reaction pathway of the catalytic wet air oxidation of phenol with a Fe/activated carbon catalyst // Appl. Catal. B. 2006. V. 67. Nos. 3 4. P. 206-216.

489. Quintanilla A., Casas J.A., Rodriguez J.J. Catalytic wet air oxidation of phenol with modified activated carbons and Fe/activated carbon catalyst // Appl. Catal. B. 2007. V. 76. Nos. 1-2. P.

135-145.

490. Quintanilla A., Menendez N., Tornero J., Casas J.A. et al. Surface modification of carbon supported iron catalyst during the wet air oxidation of phenol: Influence on activity // Appl. Catal. B. 2008. V. 81. Nos. 1-2. P. 105-114.

491. Soria-Sanchez M., Maroto-Valiente A., Alvarez-Rodriquez J., Rodriqiez-amos I. et al. Efficient catalytic wet oxidation of phenol using acetiacetonate complexes anchored on carbon nanofibers // Carbon. 2009. V. 47. No. 8. P. 2095-2102.

492. Maiyalagan T. Synthesis and electro-catalytic activity of methanol oxidation on nitrogen containing carbon nanotubes supported Pt electrodes // Appl. Catal. B. 2008. V. 80. P. 286-295.

493. Maiyalagan T., Viswanathan B., Varadaraju U.V. Nitrogen containing carbon nanotubes as supports for Pt - Alternate anodes for fuel cell applications // Electrochem. Commun. 2005. V. 7. P. 905-912.

494. Garcia-Garcia F.R., Alvarez-Rodriguez J., Rodriguez-Ramos I., Guerrero-Ruiz A. The use of carbon nanotubes with and without nitrogen doping as support for ruthenium catalysts in the ammonia decomposition reaction // Carbon. 2010. V. 48. P. 267-276.

495. Podyacheva O., Ismagilov Z., Boronin A., Kibis L. et. al. Platinum nanoparticles supported on nitrogen-containing carbon nanofibers // Catal. Today. 2012. V. 186. P. 42-47.

496. .., .., . // : , 2008. 303 . 497. Strelko V.V., Kuts V.S., Thrower P.A. On the mechanism of possible influence of heteroatoms of nitrogen, boron and phosphorus in a carbon matrix on the catalytic activity of carbons in electron transfer reactions // Carbon. 2000. V. 38. P. 14991503.

498. Strelko V.V., Kartel N.T., Dukhno I.N., Kuts V.S., Clarkson R.B., Odintsov B.M. Mechanism of reductive oxygen adsorption on active carbons with various surface chemistry // Surf. Sci. 2004. V.

548. P. 281-290.

499. Fortuny A., Font J., Fabregat A. Wet air oxidation of phenol using active carbon as catalysts // Appl. Catal. B. 1998. V. 19. Nos. 3-4. P. 165-173.

500. Suarez-Ojeda M.E., Stuber F., Fortuny A., Fabregat A. et al. Catalytic wet air oxidation of substituted phenols using activated carbon as catalyst // Appl. Catal. B. 2005. V. 58. Nos. 1-2. P. 105-114.

501. Santiago M., Stber F., Fortuny A., Fabregat A. et al. Modified activated carbons for catalytic wet air oxidation of phenol // Carbon. 2005. V. 43. No. 10. P. 2134-2145.

502. Suarez-Ojeda M.E., Fabregat A., Stber F., Fortuny A.et al. Catalytic wet air oxidation of substituted phenols: temperature and pressure effect on the pollutant removal, the catalyst preservation, and the biodegradability enhancement // Chem. Eng. J. 2007. V. 132. Nos. 1-3. P. 105-115.

503. Ayude A., Rodriquez T., Font J., Fortuny A. et al. Effect of gas feed flow and gas composition modulation on activated carbon performance in phenol wet air oxidation // Chem. Eng. Sci. 2007. V. 62. P. 7351-7358.

504. Ayral C., Julcuor Lebique C., Stber F., Wilhelm A.-M. et al. Catalytic wet air oxidation of phenolic compounds and mixtures over activated carbon: conversion, mineralization, and catalyst stability // Ind. Eng. Chem. Res. 2010. V. 49. P. 10707-10714.

505. Dobrynkin N.M., Batygina M.V., Noskov A.S., Tsyrulnikov P.G. et al. Catalysts Ru CeO2/Sibunit for catalytic wet air oxidation of aniline and phenol // Top. Catal. 2005. V. 33. Nos.

1-4. P. 69-76.

506. Santos A., Yustos P., Cordero T., Gomis S. et al. Catalytic wet oxidation of phenol on activated carbon: stability, phenol conversion and mineralization // Catal. Today. 2005. V. 102-103 P. 213 218.

507. Cordero T., Rodriquez-Mirasol J., Bedia J., Gomis S. et al. Activated carbon as catalyst in wet oxidation of phenol: effect of the oxidation reaction on the catalyst properties and stability // Appl.

Catal. B. 2008. V. 81. Nos. 1-2. P. 122-131.

508. Santos A., Yustos P., Rodriquez S., Garcia-Ochoa F. et al. Decolorization of textile dyes by wet oxidation using activated carbon as catalyst // Ind. Eng. Chem. Res. 2007. V. 46. No. 8. P.

2423-2427.

509. Manole C.C., Julcour-lebigue C., Wilhelm A.-M., Delmas H. Catalytic oxidation of 4 hydroxybenzoic acid on activated carbon in batch autoclave and fixed-bed reactors // Ind. Eng. Chem.

Res. 2007. V. 46. No. 25. P. 8388-8396.

510. Apolinario A., Silva A., Machado B., Gomes H. et al. Wet air oxidation of nitro-aromatic compounds reactivity on single- and multi-component systems and surface chemistry studies with a carbon xerogel // Appl. Catal. B. 2008. V. 84. Nos. 1-2. P. 75-86.

511. Santos A., Yustos P., Durban B., Garcia-Ochoa F. Catalytic wet oxidation of phenol: kinetics of phenol uptake // Environ. Sci. Technol. 2001. V. 35. No. 13. P. 2828-2835.

512. Pigamo A., Besson M., Blanc B., Gallezot P. et al. Effect of oxygen functional groups on synthetic carbons on liquid phase oxidation of cyclohexanone // Carbon. 2002. V. 40. No. 8. P.

1267-1278.

513. Yang S., Li X., Zhu W., Wang J. et al. Catalytic activity, stabiblity and structure of multi-walled carbon nanotubes in the wet air oxidation of phenol // Carbon. 2008. V. 46. No. 3. P. 445-452.

514. Chen H., Yang G., Feng Y., Shi C., Xu S., Cao W., Zhang X.. Biodegradability enhancement of coking wastewater by catalytic wet air oxidation using aminated activated carbon as catalyst // hem.

Eng. J. 2012. P. 45-51. 515. Coughlin R.W. Carbon as adsorbent and catalyst // Ind. Eng. Chem. Prod. 1969. V. 8. No. P. 12-23.

516. Kinoshita K. Carbon. Electrochemical and physicochemical properties. N-Y.: Wiley Interscience, 1988. 533 p.

517. Wan Mohd Ashri Wan Daud, Houshamnd A.H. Textural characteristics, surface chemistry and oxidation of activated carbon // J. Nat. Gas Chem. 2010. V. 19. No. 3. P. 267-279.

518. Aguilar C., Garca R., Soto-Garrido G., Arriagada R. Catalytic wet air oxidation of aqueous ammonia with activated carbon // Appl. Catal. B. 2003. V. 46. No. 2. P. 229-237.

519. Pradhan B.K., Sandel N.K. Effect of different oxidizing agent treatments on the surface properties of activated carbons // Carbon. 1999. V. 37. No. 9. P. 1323-1332.

520. Figueiredo J.F., Pereira M.F.R., Freitas M.M.A., rfo J.J.M. Modification of the surface chemistry of activated carbons // Carbon. 1999. V. 37. No. 9. P. 1379-1389.

521. Bleda-Martnez M.J., Lozano-Castell D., Moralln E., Cazorla-Amors D. et al. Chemical and elecrtochemical characterization of porous carbon materials // Carbon. 2006. V. 4. No. 13. P.

2642-2651.

522 Moreno-Castilla C., Ferro-Garcia M.A., Joly J.-P., Bautista-Toledo I. et al. Activated carbon surface modifications by nitric acid, hydrogen peroxide, and ammonium peroxydisulfate treatments // Langmuir. 1995 V. 11. No. 11. P. 4386-4392.

523. Qui N.V., Scholz P., Krech T., Keller T.F. et al. Multiwalled carbon nanotubes oxidized by UV/H2O2 as catalyst for oxidative dehydrogenation of ethylbenzene // Catal. Commun. 2011. V.

12. No. 6. P. 464-469.

524. Preoanin T., Kallay N. Application of Mass-titration to determination of surface charge of metal oxides // Croatica chemica acta. 1998. V. 71. No. 4. P. 1117-1125.

525. Lopez-Ramon M.V., Stoeckli F., Moreno-Castilla C., Carrasco-Marin F. On the characterization of acid and basic sites on carbons by various techniques // Carbon. 1999. V. 37. No. 8. P. 1215 1221.

526. Shfeeyan M.S., Daud W.M.A.W., Houshmand A., Shamiri A. A review on surface modification of activated carbon for carbon dioxide adsortption // J. Analyt. Appl. Pyrolysis. 2010. V. 89. P.

143 -151.

527. Boehm H.P. Some aspects of the surface chemistry of carbon blacks and other carbons // Carbon.

1994. V. 32. No. 5. P. 759-769.

528. Abiman P., Crossley A., Wildgoose G.G., Jones J.H. et al. Investigating the thermodynamic cause behind the anomalously large shifts in pKa values of benzoic acid-modified graphite and glass carbon surfaces // Langmuir. 2007. V. 23. P. 7847-7852.

529. Boehm H.P. Chemical identification of surface groups // Advances in Catalysis / Editors Eley E.E., Pines H., Weisz P.B. N.-Y.;

London: Academic Press, 1966. V. 16. P. 179-274.

530. .. . : , 1981. 200 c.

531. Okhlopkova L.B., Lisitsyn A.S., Likholobov V.A., Gurrant M., Boehm H.P. Properties of Pt/C and Pd/C catalysts prepared by reduction with hydrogen of adsorbed metal chlorides. Influence of pore structure of the support // Appl. Catal. A. 2000. V. 204. No. 2. P. 229-240.

532. Moreno-Castilla C., Lpez-Ramn M.V., Carrasco-Marn F. Changes in surface chemistry of activated carbons by wet oxidation // Carbon. 2000. V. 38. No. 14. P. 1995-2001.

533. Tseng H.-H., Wey M.-Y. Effect of acid treatments of activated carbon on its physiochemical structure as a support for copper oxide in DeSO4 reaction catalysts // Chemosphere. 2006. V. 62. No. 5. P. 756-766.

534. Houchin M.R., Warren L.J. Surface titration and electrokinetics measurements on Australian cassiterites // Colloid. Surf. 1985. V. 16. P. 117-126.

535. Moriwaki H., Yoshikawa Y., Morimoto T. Oxide films on iron and nickel ultrafine particles studied with zero point of charge measuaments // Langmuir. 1990. V. 6. No. 4. .847-850.

536. Ania C.J., Parra J.B., Pis J.J. Influence of oxygen-containing functional groups on active carbon adsorption of selected organic compounds // Fuel Proces Technol. 2002. V. 79. No. 3. P. 265 271.

537. Nuri S., Haghseresht F. Research on the BET surface area and packing of molecules on the activated carbon // Adsorption. 2004. V. 10. No. 1. P. 69-77.

538 Bandosz T.J., Jagiello J., Schwarz J.A. Comparison of methods to assess surface acidic groups on activated carbons // Anal. Chem. 1992. V. 64. P. 891-895.

539. Moreno-Castilla C., Carracso-Marin F., Mueden A. The creation of acid carbon surface by treatment with (NH4)2S2O8 // Carbon. 1997. V. 35. Nos. 10-11. P. 1619-1626.

540. Eftaxias A., Font J., Fortuny A., Giralt J. et al. Kinetic modeling of catalytic wet air oxidation of phenol by simultaneous annealing // Appl. Catal. B. 2001. V. 33. No. 2. P. 175-190.

541. Santos A., Yustos P., Quintanilla A., Rodriquez S. et al. Route of the catalytic oxidation of phenol in aqueous phase // Appl. Catal. B. 2002. V. 39. No. 2. P. 97-113.

542. Devlin H.R., Harris I.J. Mechanism of the oxidation of aqueous phenol with dissolved oxygen // Ind. Eng. Chem. Fundam. 1984. V. 23. No. 4. P. 387-392.

543. Pintar A., Levec J.R. Catalytic oxidation of organics in aqueous solutions. I. Kinetics of phenol oxidation // J. Catal. 1992. V. 135. No. 2. P. 345-357.

544. Pintar A., Levec J. Catalytic liquid-phase oxidation of phenol aqueous solutions. A kinetic investigation // Ind. Eng. Chem. Res. 1994. V. 33. No. 12. P. 3070-3077.

545. Harmsen J.M.A., Jelemensky L., Van Andel-Scheffer P.J.M., Kuster B.F.M., Marin G.B. Kinetic modeling for wet air oxidation of formic acid on a carbon supported platinum catalyst // Appl.

Catal. A. 1997. V. 165. Nos. 1-2. P. 499-509.

546. Santos A., Yustos P., Rodriguez S., Garcia-Ochoa F. Wet oxidation of phenol, cresol and nitrophenols catalyzed by activated carbon in acid and basic media // Appl. Catal. B. 2006. V. 65. Nos. 3-4. P. 269-281.

547. Hamoudi S., Belkacemi K., Larachi F. Catalytic oxidation of aqueous phenolic solution catalyst deactivation and kinetics // Chem. Eng. Sci. 1999. V. 54. Nos. 15-16. P. 3569-3576.

548. Rivas F.J., Kolaczkowski S.T., Beltran F.J., McLurgh D.B. Development of a model fro the wet air oxidation of phenol based on a free radical mechanism // Chem. Eng. Sci. 1998. V. 53. No.

14. P. 2575-2586.

549. Guo J., Al-Dahhan M. Kinetics of wet air oxidation of phenol over a Novel catalyst // Ind. Eng.

Chem. Res. 2003. V. 42. No. 12. P. 5473-5481.

550. .., .., .., .. 1,1- // . . . 1977. .51. 1. - .85-88.

551. .., .., .., .. 1,1- // .

.. 1975. - .49. 12. - .3131-3134.

552. McBride W.R., Kruse H. Alkylhydrazines. I. Formation of a new diazo-like species by the oxidation of 1,1-dialkylhydrazines in solution // J. Amer. Chem. Soc. 1957. V. 79. No. 3. P.

572.

553. Boehm J.R., Balch A.L., Bizot K.F. Enemal J.H. Oxidation of 1,1-dimethylhydrazine by cupric halides. The isolation of a complex of 1,1-dimethyldiazene and a salt containing the 1,1,5,5 tetramethylformazanium ion // J. Amer. Chem. Soc. 1975. V. 97. No. 3. P. 501.

554. Malone H.E., Anderson D.M.W. An acid-base method for the analysis of admixture of hydrazine with MMH, UDMH and SDMH // Anal. Chim. Acta. 1969. V. 47. P. 363-366.

555. Malone H.E., Anderson D.M.W. The determination of mixture of hydrazine, MMH and UDMH // Anal. Chim. Acta. 1969. V. 48. P. 87-91.

556. Min-qin M., Ben-mao Z., Pei-jee X., Xin-min R. A study of kinetics and mechanism of oxidation of dimethylhydrazine, hydrazine and hydroxylamine by 12-tungstocobalt(III)ate // Photograp. Sci.

Photochem. 1990. No. 1. P. 7-13.

557. .. 249843 . 02 F 1/48;

C 07 109/04, N 6402-85. .

558. .., .., .. // . .:, 1986. - .27-28.

559. Funai I.A., Blesa M.A., Olabe J.A. Hydrazine autooxidation in solution. Catalysis by pentacyanoferrate(II) // Polyhedron. 1989. - T.8. No. 4. - C.419-426.

560. 3644080 . 2 C 02 F 1/72. Detoxification of industrial wastewaters using an oxidant.

561. . 2063385 . 6 CO2F 1/58. 1,1 .

562. Schmidt E.V. Hydrazine and its derivatives. N -Y.: Wiley & Sons, 1969. P. 340.

563. Mathur M.A., Sisler H.H. Oxidation of 1,1-dimethylhydrazine by oxygen // Inorg.Chem. 1981. V. 20. No. 2. P. 426.

564. Lemal D.M., Menger F., Coats E.J. The diazene-hydrozone rearrangement // J. Amer. Chem. Soc.

1964. V. 86. No. 12. P. 2395.

565. Tolles W.M., McBride W.R., Thun W.E. An electron spin resonance study of several 1,4 dihydro-s-tetrazine cation radicals // J.Amer. Chem. Soc. 1969. V. 91. No. 10. P. 2443.

566. .. . .: , 1985. - .113.

567. Mason S.F. The electronic spectra of N-heteroaromatic systems // J.Chem.Soc. 1959. No. 3. P.

1240.

568. .., .., .. . .: , 1979.

569. .. 3d- . : , 1987.

570. . . .: , 1962. - 1216 c. - .1054.

571. Ismagilov Z.R., Kerzhentsev M.A., Ismagilov I.Z., Sazonov V.A. et. al. Oxidation of unsymmetrical dimethylhydrazine over heterogeneous catalysts // Cat. Tod. 2002. V. 75 Nos. 1 4. P. 277-285.

572. Ismagilov, Z.R., Kerzhentsev M.A., Ismagilov I.Z., Sazonov V.A. et. al. Oxidation of unsymmetrical dimethylhydrazine over Oxide and noble Metal catalysts. Solution of Enviromental Problem of Production, storage and Disposal of Highly Toxic Rocket Fuel. // Defense Industries:

Science and Technology Related to Security. Impact of Conventional Munitions on Environmental and Pollution, NATO Science Series, V. 44. / eds P.C. Branco, H. Schubert, J. Campos. Springer, 2004. P. 293-316.

573. Kuznetsov V.L., Butenko Yu.V. Nanodiamond Graphitization and Properties of Onion-Like Carbon // Ultrananocrystalline diamond: synthesis, properties, and applications / eds. O. Shenderova, D. Gruen. N.-Y.: William Andrew Publishing, 2006. - P. 405-476.

574. Mironov E., Koretz A., Petrov E. Detonation synthesis ultradispersed diamond structural properties investigation by infrared adsorption // Diamond Relat. Mater. 2002. V. 11. Nos. 3-6. P. 872-876.

575. Shaffer M.S.P., Fan X., Windle A.H. Dispersion and packing of carbon nanotubes // Carbon. 1998. V. 36. No. 11. P. 1603-1612.

576. Ji S., Jiang T., Xu K., Li S. FTIR study of the adsorption of water on ultradispersed diamond powder surface // Appl. Surf. Sci. 1998. V. 133. No. 4. P. 231-238.

577. Meldrum B.J., Rochester C.H. In situ Infrared study of the oxidation of activated carbon in oxygen and carbon dioxide // J. Chem. Soc. Faraday Trans. 1990. V. 86. No. 5. P. 861-865.

578. Gmez-Serrano V., Piriz-Almeida F., Durn-Valle C.J., Pastor-Villegas J. Formation of oxygen structure by air activation. A study by FTIR spectroscopy // Carbon. 1999. V. 37. No. 10. P.

1517-1528.

579. Muckenhuber H., Grothe H. The heterogeneous reaction between soot and N2 at elevated temperature // Carbon. 2006. V. 44. No. 3. P. 546-559.

580. .. : . . . . , 2011. 147 .

581. Pels J.R., Kapteijn F., Moulijn J.A., Zhu Q. et al. Evolution of nitrogen functionalities in carboneous materials during pyrolysis // Carbon. 1995. V. 33. No. 11. . 1641-1653.

582. Parmon V.N. Thermodynamic analysis of the effect of the nanoparticle size of the active component on the adsorption equilibrium and the rate of heterogeneous catalytic processes // Dokl.

Phys. Chem. - 2007. V. 413. P. 42.

583. Villacaas F., Pereira M.F.R., rfo J.J.M., Figueiredo J.L. Adsorption of simple aromatic compounds on activated carbons // J. Colloid. Interface Sci. 2006. V. 293. No. 1. P. 128-136.



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