| 1 - 1 |
The 8th Japan-China Workshop on Environmental Catalysis and Eco-Materials was held in Tsukuba, Japan, December 5-6, 2017 Preface
Haneda M, He H |
| 1 - 1 |
The 8th Japan-China Workshop on Environmental Catalysis and Eco-Materials was held in Tsukuba, Japan, December 5-6, 2017 Preface
Haneda M, He H |
| 2 - 10 |
Syntheses and characterization of alpha-Keggin- and alpha(2)-Dawson-type diplatinum(II)-coordinated polyoxotungstates: Effects of skeletal structure, internal element, and nitrogen-containing ligand coordinated to the platinum center for hydrogen production from water under light irradiation
Kato CN, Suzuki S, Mizuno T, Ihara Y, Kurihara A, Nagatani S |
| 2 - 10 |
Syntheses and characterization of alpha-Keggin- and alpha(2)-Dawson-type diplatinum(II)-coordinated polyoxotungstates: Effects of skeletal structure, internal element, and nitrogen-containing ligand coordinated to the platinum center for hydrogen production from water under light irradiation
Kato CN, Suzuki S, Mizuno T, Ihara Y, Kurihara A, Nagatani S |
| 11 - 19 |
Optimization of the reaction conditions for Fe-catalyzed decomposition of methane and characterization of the produced nanocarbon fibers
Inaba M, Zhang ZG, Matsuoka K, Soneda Y |
| 11 - 19 |
Optimization of the reaction conditions for Fe-catalyzed decomposition of methane and characterization of the produced nanocarbon fibers
Inaba M, Zhang ZG, Matsuoka K, Soneda Y |
| 20 - 27 |
Gas-phase dehydration of glycerol to acrolein catalyzed by hybrid acid sites derived from transition metal hydrogen phosphate and meso-HZSM-5
Ren X, Zhang F, Sudhakar M, Wang NL, Dai JH, Liu LC |
| 20 - 27 |
Gas-phase dehydration of glycerol to acrolein catalyzed by hybrid acid sites derived from transition metal hydrogen phosphate and meso-HZSM-5
Ren X, Zhang F, Sudhakar M, Wang NL, Dai JH, Liu LC |
| 28 - 34 |
Polyoxomolybdates catalysed cascade conversions of cellulose to glycolic acid with molecular oxygen via selective aldohexoses pathways (an epimerization and a [2+4] Retro-aldol reaction)
Bayu A, Karnjanakom S, Yoshida A, Kusakabe K, Abudula A, Guan GQ |
| 28 - 34 |
Polyoxomolybdates catalysed cascade conversions of cellulose to glycolic acid with molecular oxygen via selective aldohexoses pathways (an epimerization and a [2+4] Retro-aldol reaction)
Bayu A, Karnjanakom S, Yoshida A, Kusakabe K, Abudula A, Guan GQ |
| 35 - 41 |
Efficient synthesis of the Cu-SAPO-44 zeolite with excellent activity for selective catalytic reduction of NOx by NH3
Xin Y, Zhang NN, Wang X, Li Q, Ma XC, Qi YX, Zheng LR, Anderson JA, Zhang ZL |
| 35 - 41 |
Efficient synthesis of the Cu-SAPO-44 zeolite with excellent activity for selective catalytic reduction of NOx by NH3
Xin Y, Zhang NN, Wang X, Li Q, Ma XC, Qi YX, Zheng LR, Anderson JA, Zhang ZL |
| 42 - 48 |
NH3-SCR performance of WO3 blanketed CeO2 with different morphology: Balance of surface reducibility and acidity
Wang D, Peng Y, Yang QL, Hu FY, Li JH, Crittenden J |
| 42 - 48 |
NH3-SCR performance of WO3 blanketed CeO2 with different morphology: Balance of surface reducibility and acidity
Wang D, Peng Y, Yang QL, Hu FY, Li JH, Crittenden J |
| 49 - 58 |
The promotional role of Nd on Mn/TiO2 catalyst for the low-temperature NH3-SCR of NOx
Huang J, Huang H, Jiang HT, Liu LC |
| 49 - 58 |
The promotional role of Nd on Mn/TiO2 catalyst for the low-temperature NH3-SCR of NOx
Huang J, Huang H, Jiang HT, Liu LC |
| 59 - 63 |
NH3-SCR by monolithic Cu-ZSM-5 and Cu-AFX catalysts: Kinetic modeling and engine bench tests
Shibata G, Eijima W, Koiwai R, Shimizu K, Nakasaka Y, Kobashi Y, Kubota Y, Ogura M, Kusaka J |
| 59 - 63 |
NH3-SCR by monolithic Cu-ZSM-5 and Cu-AFX catalysts: Kinetic modeling and engine bench tests
Shibata G, Eijima W, Koiwai R, Shimizu K, Nakasaka Y, Kobashi Y, Kubota Y, Ogura M, Kusaka J |
| 64 - 68 |
Micropore diffusivities of NO and NH3 in Cu-ZSM-5 and their effect on NH3-SCR
Nakasaka Y, Kanda T, Shimizu K, Kon K, Shibata G, Masuda T |
| 64 - 68 |
Micropore diffusivities of NO and NH3 in Cu-ZSM-5 and their effect on NH3-SCR
Nakasaka Y, Kanda T, Shimizu K, Kon K, Shibata G, Masuda T |
| 69 - 75 |
Promoting effect of Au on Pd/TiO2 catalyst for the selective catalytic reduction of NOx by H-2
Duan KJ, Wang ZH, Hardacre C, Liu ZM, Chansai S, Stere C |
| 69 - 75 |
Promoting effect of Au on Pd/TiO2 catalyst for the selective catalytic reduction of NOx by H-2
Duan KJ, Wang ZH, Hardacre C, Liu ZM, Chansai S, Stere C |
| 76 - 82 |
Low-temperature NOx trapping on alkali or alkaline earth metal modified TiO2 photocatalyst
Tamai K, Hosokawa S, Asakura H, Teramura K, Tanaka T |
| 76 - 82 |
Low-temperature NOx trapping on alkali or alkaline earth metal modified TiO2 photocatalyst
Tamai K, Hosokawa S, Asakura H, Teramura K, Tanaka T |
| 83 - 88 |
PM oxidation over Ag-loaded perovskite-type oxide catalyst prepared by thermal decomposition of heteronuclear cyano-complex precursor
Yamaura H, Takahashi H, Fukuoka M, Nishibori M, Yamaguchi S, Yahiro H |
| 83 - 88 |
PM oxidation over Ag-loaded perovskite-type oxide catalyst prepared by thermal decomposition of heteronuclear cyano-complex precursor
Yamaura H, Takahashi H, Fukuoka M, Nishibori M, Yamaguchi S, Yahiro H |
| 89 - 93 |
Simulation on soot deposition in in-wall and on-wall catalyzed diesel particulate filters
Kong H, Yamamoto K |
| 89 - 93 |
Simulation on soot deposition in in-wall and on-wall catalyzed diesel particulate filters
Kong H, Yamamoto K |
| 94 - 100 |
Evaluation of cerium doped perovskites (Ce0.1Sr0.9)(x)Co0.3Fe0.7O3-delta as cathode materials for solid oxide fuel cells
Xiaokaiti P, Yu T, Yoshida A, Guan GQ, Abudula A |
| 94 - 100 |
Evaluation of cerium doped perovskites (Ce0.1Sr0.9)(x)Co0.3Fe0.7O3-delta as cathode materials for solid oxide fuel cells
Xiaokaiti P, Yu T, Yoshida A, Guan GQ, Abudula A |
| 101 - 108 |
High Pt utilization efficiency of electrocatalysts for oxygen reduction reaction in alkaline media
Zhang NQ, Li LC, Chu Y, Zheng LR, Sun SR, Zhang GZ, He H, Zhao JS |
| 101 - 108 |
High Pt utilization efficiency of electrocatalysts for oxygen reduction reaction in alkaline media
Zhang NQ, Li LC, Chu Y, Zheng LR, Sun SR, Zhang GZ, He H, Zhao JS |
| 109 - 114 |
Ferric porphyrin-based polymers for electrochemical oxygen reduction
Banerjee S, Nabae Y |
| 109 - 114 |
Ferric porphyrin-based polymers for electrochemical oxygen reduction
Banerjee S, Nabae Y |
| 115 - 121 |
Hydrocracking of algae oil to aviation fuel-ranged hydrocarbons over NiMo-supported catalysts
Liu YY, Murata K, Inaba M |
| 115 - 121 |
Hydrocracking of algae oil to aviation fuel-ranged hydrocarbons over NiMo-supported catalysts
Liu YY, Murata K, Inaba M |
| 122 - 131 |
Profiling and catalytic upgrading of commercial palm oil-derived biodiesel fuels for high-blend fuels
Chen SY, Attanatho L, Chang A, Laosombut T, Nishi M, Mochizuki T, Takagi H, Yang CM, Abe Y, Toba M, Chollacoop N, Yoshimura Y |
| 122 - 131 |
Profiling and catalytic upgrading of commercial palm oil-derived biodiesel fuels for high-blend fuels
Chen SY, Attanatho L, Chang A, Laosombut T, Nishi M, Mochizuki T, Takagi H, Yang CM, Abe Y, Toba M, Chollacoop N, Yoshimura Y |
| 132 - 138 |
Synergistic effect for promoted benzene oxidation over monolithic CoMnAlO catalysts derived from in situ supported LDH film
Li SD, Mo SP, Wang DD, Wu XF, Chen YF |
| 132 - 138 |
Synergistic effect for promoted benzene oxidation over monolithic CoMnAlO catalysts derived from in situ supported LDH film
Li SD, Mo SP, Wang DD, Wu XF, Chen YF |
| 139 - 143 |
Effect of A(2+) and B3+ substitution for Cobalt on low-temperature catalytic removal of formaldehyde over spinel A(x)B(3-x)O(4) (A = Mg, Ni, Zn; B = Cr, Fe, Al)
Zhang ZX, Fan ZY, Guo H, Fang WJ, Chen MX, Shangguan WG |
| 139 - 143 |
Effect of A(2+) and B3+ substitution for Cobalt on low-temperature catalytic removal of formaldehyde over spinel A(x)B(3-x)O(4) (A = Mg, Ni, Zn; B = Cr, Fe, Al)
Zhang ZX, Fan ZY, Guo H, Fang WJ, Chen MX, Shangguan WG |
| 144 - 152 |
Effect of catalyst composition and reactor configuration on benzene oxidation with a nonthermal plasma-catalyst combined reactor
Hamada S, Hojo H, Einaga H |
| 144 - 152 |
Effect of catalyst composition and reactor configuration on benzene oxidation with a nonthermal plasma-catalyst combined reactor
Hamada S, Hojo H, Einaga H |
| 153 - 159 |
Au/Rod-like MnO2 catalyst via thermal decomposition of manganite precursor for the catalytic oxidation of toluene
Sun H, Yu XL, Yang XQ, Ma XY, Lin MY, Shao CF, Zhao Y, Wang FY, Ge MF |
| 153 - 159 |
Au/Rod-like MnO2 catalyst via thermal decomposition of manganite precursor for the catalytic oxidation of toluene
Sun H, Yu XL, Yang XQ, Ma XY, Lin MY, Shao CF, Zhao Y, Wang FY, Ge MF |
| 160 - 167 |
1D-Co3O4, 2D-Co3O4, 3D-Co3O4 for catalytic oxidation of toluene
Ren QM, Feng ZT, Mo SP, Huang CL, Li SJ, Zhang WX, Chen LM, Fu ML, Wu JL, Ye DQ |
| 160 - 167 |
1D-Co3O4, 2D-Co3O4, 3D-Co3O4 for catalytic oxidation of toluene
Ren QM, Feng ZT, Mo SP, Huang CL, Li SJ, Zhang WX, Chen LM, Fu ML, Wu JL, Ye DQ |
| 168 - 176 |
PtxCo/meso-MnOy: Highly efficient catalysts for low-temperature methanol combustion
Yang J, Liu YX, Deng JG, Xie SH, Hou ZQ, Zhao XT, Zhang KF, Han Z, Dai HX |
| 168 - 176 |
PtxCo/meso-MnOy: Highly efficient catalysts for low-temperature methanol combustion
Yang J, Liu YX, Deng JG, Xie SH, Hou ZQ, Zhao XT, Zhang KF, Han Z, Dai HX |
| 177 - 182 |
Effect of CeO2 morphologies on toluene catalytic combustion
Feng ZT, Ren QM, Peng RS, Mo SP, Zhang MY, Fu ML, Chen LM, Ye DQ |
| 177 - 182 |
Effect of CeO2 morphologies on toluene catalytic combustion
Feng ZT, Ren QM, Peng RS, Mo SP, Zhang MY, Fu ML, Chen LM, Ye DQ |
| 183 - 188 |
CO and C3H6 oxidation over platinum-group metal (PGM) catalysts supported on Mn-modified hexagonal YbFeO3
Hosokawa S, Matsumoto S, Onishi K, Asakura H, Teramura K, Tanaka T |
| 183 - 188 |
CO and C3H6 oxidation over platinum-group metal (PGM) catalysts supported on Mn-modified hexagonal YbFeO3
Hosokawa S, Matsumoto S, Onishi K, Asakura H, Teramura K, Tanaka T |
| 189 - 194 |
Thermally stable Ag/Al2O3 confined catalysts with high diffusion-induced oxidation activity
Wang HL, Luo ST, Li XH, Liu W, Wu XD, Weng D, Liu S |
| 189 - 194 |
Thermally stable Ag/Al2O3 confined catalysts with high diffusion-induced oxidation activity
Wang HL, Luo ST, Li XH, Liu W, Wu XD, Weng D, Liu S |
| 195 - 200 |
Fe-ZSM-5 supported palladium nanoparticles as an efficient catalyst for toluene abatement
Peng YX, Zhang L, Jiang YW, Han SC, Zhu QY, Meng XJ, Xiao FS |
| 195 - 200 |
Fe-ZSM-5 supported palladium nanoparticles as an efficient catalyst for toluene abatement
Peng YX, Zhang L, Jiang YW, Han SC, Zhu QY, Meng XJ, Xiao FS |
| 201 - 213 |
Highly selective catalytic combustion of acrylonitrile towards nitrogen over Cu-modified zeolites
Liu N, Shi DJ, Zhang RD, Li YX, Chen BH |
| 201 - 213 |
Highly selective catalytic combustion of acrylonitrile towards nitrogen over Cu-modified zeolites
Liu N, Shi DJ, Zhang RD, Li YX, Chen BH |
| 214 - 221 |
A novel two-dimensional MgO-h-BN nanomaterial supported Pd catalyst for CO oxidation reaction
Li LC, Liu XJ, He H, Zhang NQ, Liu ZW, Zhang GZ |
| 214 - 221 |
A novel two-dimensional MgO-h-BN nanomaterial supported Pd catalyst for CO oxidation reaction
Li LC, Liu XJ, He H, Zhang NQ, Liu ZW, Zhang GZ |
| 222 - 226 |
Photocatalytic properties of TiO2-loaded porous silica with hierarchical macroporous and mesoporous architectures in the degradation of gaseous organic molecules
Kamegawa T, Ishiguro Y, Yamashita H |
| 222 - 226 |
Photocatalytic properties of TiO2-loaded porous silica with hierarchical macroporous and mesoporous architectures in the degradation of gaseous organic molecules
Kamegawa T, Ishiguro Y, Yamashita H |
| 227 - 235 |
Enhanced visible-light-induced photocatalytic degradation and disinfection activities of oxidized porous g-C3N4 by loading Ag nanoparticles
Xu J, Gao QZ, Bai XJ, Wang ZP, Zhu YF |
| 227 - 235 |
Enhanced visible-light-induced photocatalytic degradation and disinfection activities of oxidized porous g-C3N4 by loading Ag nanoparticles
Xu J, Gao QZ, Bai XJ, Wang ZP, Zhu YF |
| 236 - 244 |
Effect of ceria and zirconia supports on NO reduction over platinum-group metal catalysts: A DFT study with comparative experiments
Koga H, Hayashi A, Ato Y, Tada K, Hosokawa S, Tanaka T, Okumura M |
| 236 - 244 |
Effect of ceria and zirconia supports on NO reduction over platinum-group metal catalysts: A DFT study with comparative experiments
Koga H, Hayashi A, Ato Y, Tada K, Hosokawa S, Tanaka T, Okumura M |
| 245 - 250 |
A comparative study on TWC reactions over Rh thin films and supported Rh nanoparticles under lean conditions
Yoshida H, Kakei R, Kuzuhara Y, Misumi S, Machida M |
| 245 - 250 |
A comparative study on TWC reactions over Rh thin films and supported Rh nanoparticles under lean conditions
Yoshida H, Kakei R, Kuzuhara Y, Misumi S, Machida M |
| 251 - 258 |
Low content Pt-doped CeO2 and core-shell type CeO2/ZrO2 model catalysts; microstructure, TPR and three way catalytic activities
Ozawa M, Misaki M, Iwakawa M, Hattori M, Kobayashi K, Higuchi K, Arai S |
| 251 - 258 |
Low content Pt-doped CeO2 and core-shell type CeO2/ZrO2 model catalysts; microstructure, TPR and three way catalytic activities
Ozawa M, Misaki M, Iwakawa M, Hattori M, Kobayashi K, Higuchi K, Arai S |
| 259 - 266 |
Investigation of the effective oxygen storage and release performances on the Pt/CeO2-ZrO2 catalysts by breakthrough method
Dong F, Tanabe T, Takahashi N, Shinjoh H |
| 259 - 266 |
Investigation of the effective oxygen storage and release performances on the Pt/CeO2-ZrO2 catalysts by breakthrough method
Dong F, Tanabe T, Takahashi N, Shinjoh H |
| 267 - 271 |
Selective catalytic reduction of NO with CO and C3H6 over Rh/NbOPO4
Imai S, Miura H, Shishido T |
| 267 - 271 |
Selective catalytic reduction of NO with CO and C3H6 over Rh/NbOPO4
Imai S, Miura H, Shishido T |
| 272 - 279 |
Activation energy calculation of NO-CO reaction on rhodium surface by density functional theory
Ito T, Shimizu Y |
| 272 - 279 |
Activation energy calculation of NO-CO reaction on rhodium surface by density functional theory
Ito T, Shimizu Y |
