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通大学学报 第42卷 参考文献 [9 YOUN H C, BARAL S, FENDL ER J. Dihexadecyl [1 DOMEN K, KUDO A, OHNISHI T. Mechanism of phosphate, vesicle- stabilized and in situ generated hotocatalytic decomposition of water into H2 and O xed CdS and ZnS semiconductor particles: prepara- over NiO-Sr T1O3J-J Catal, 1986, 102(1): 92-98 to sensitized cl [2 KATO H, ASA KURA K, KUDO A. Highly efficient ion and hydrogen generation J]. J Phys Chem, 1988 water splitting into H2 and O2 over lant hanumrdoped 92(22)6320-6327 Na TaOs photocatalysts with high crystallinity and sur- [10] XIN G Chanjuan, ZHANG Yaojun, YAN Wei, et al face nano structure [J]. J Am Chem Soc, 2003, 125 Band structure-controlled solid solution of Cdi.x Zn S (10):3082-3089 photocatalyst for hydrogen production by water split- [3 ZoU Zhigang, YE Jinhua, SA YAMA K, et al. Direct ting[J]. Int J Hydrogen Energy, 2006, 31(14): 2018- litting of water under visible light irradiation with 2024 xide semiconductor photocatalyst[J]. Nature, 2001, [11] TSUJI I, KATO H, KOBA YASHI H, et al. Photo- 414(6864):625627 catalytic H2 evolution reaction from aqueo us solutions [4 HITOKI G, TA KATA T, KoNDO J, et al. An over band structure-controlled(AgIn), Zn2( 1) S2 solid oxynitride, TaoN, as an efficient water oxidation pho- solution photocatalysts with visible-light cocatalyst under visible light irradiation (A <500 nm) heir surface nanostructures [J]. JAm J]. Chem Commun,2002(16):1698-1699 2004,126(41):13406-13413 [5] NIISHIROR, KATO H, KUDO A Nickel and either [12] TSUJI I, KA TO H, KOBA YASHI H, et al. Photo- tantalum or niobiumrcodoped TiO2 and Sr TiO3. photo- catalytic H2 evolution under visiblelight Irradiation atalysts with visible-light response for H2 or O2 evo- over bandstructure-cont rolled(Culn) Zng(l a) S2 solid lution from aqueous solutions J]. Phys Chem Chem solutions[J]. J Phys Chem: B, 2005, 109(15): 7323- Phys,2005,7(10) [6] KUDO A, SEKIZAWA M. Photocatalytic H2 evolur [131 TSUJI I, KATO H, KUDO A. Visible-light-induced tion under visible light irradiation on Zn. Cu S solid H2 evolution from an aqueous solution containing sul- solution[J]. Catal Lett, 1999, 58(4): 241-243 fide and sulfite over a Znsuln S2-AgInS2 solid solution [7] KUDO A, SEKIZAWA M. Photocatalytic H2 evolur photocatalyst[ J]. Angew Chem, 2005, 44 (23): 3565 J]. Chem commun,2000(15):1371-1372 [14] MAEDA K, TERAMURA K, LU Daling, et al. Pho- [8 REBER J F, RUSEK M. Phtotchemical hydrogen pro- tocatalyst releasing hydrogen from water[J].Nature duction with platinized suspensions of cadmium sulfide 2006,440(7082):295 and cadmium ulfide modified by silver sulfide[j] (编辑荆树蓉赵大良) Phys Chem,1986,90(5):824834 (上接第312页) [3」Ⅴ AIDYARAMAN S, LACKEY WJ, A GRAWAL [5]胡志宏火箭发动机特种煤油传热特性的试验研究 K, et al. 1 D model for forced flow-thermal gradient D]西安:西安交通大学能源与动力工程学院,1996 chemical vapor infiltration process for carbon/ carbon[6]梁文杰石油化学[M]东营:中国石油大学(华东)出 composites]. Carbon,1996,34(9):1123-1133 版社,1996:96-104 [4] GOL ECKI I, MORRIS RO, NARASIMHAN D. Rapid[7]杨世铭,陶文铨.传热学[M]4版.北京:高等教育出 densification of porous carbon/ carbon composites by 版社,1998221-227 thermal gradient CVI[J]. App Phys Lett, 1995,66 (编辑荆树蓉赵大良) (18):2334-2336 o1994-2010ChinaAcademicJournalElectronicPublishingHouse.Allrightsreservedhttp://www.cnki.net参考文献 : [1 ] DOMEN K , KUDO A , O HNISHI T. Mechanism of photocatalytic decomposition of water into H2 and O2 over NiOΟSr TiO3 [J ]. J Catal , 1986 , 102 (1) : 92Ο98. [2 ] KA TO H , ASA KURA K , KUDO A. Highly efficient water splitting into H2 and O2 over lanthanum2doped NaTaO3 photocatalysts with high crystallinity and sur2 face nanostructure [J ]. J Am Chem Soc , 2003 , 125 (10) :3082Ο3089. [ 3 ] ZOU Zhigang , YE Jinhua , SA YAMA K , et al. Direct splitting of water under visible light irradiation with an oxide semiconductor photocatalyst [J ]. Nature , 2001 , 414 (6864) : 625Ο627. [4 ] HITO KI G, TA KA TA T , KONDO J , et al. An oxynitride , TaON , as an efficient water oxidation pho2 tocatalyst under visible light irradiation (λ≤500 nm) [J ]. Chem Commun , 2002 (16) : 1698Ο1699. [5 ] NIISHIRO R , KA TO H , KUDO A. Nickel and either tantalum or niobium2codoped TiO2 and Sr TiO3 . photo2 catalysts with visible2light response for H2 or O2 evo2 lution from aqueous solutions [J ]. Phys Chem Chem Phys , 2005 , 7 (10) :2241Ο2245. [6 ] KUDO A , SEKIZAWA M. Photocatalytic H2 evolu2 tion under visible light irradiation on Zn1 - x Cux S solid solution[J ]. Catal Lett , 1999 , 58 (4) : 241Ο243. [7 ] KUDO A , SEKIZAWA M. Photocatalytic H2 evolu2 tion under visible light irradiation on Ni2doped ZnS [J ]. Chem Commun , 2000 (15) : 1371Ο1372. [8 ] REBER J F , RUSEK M. Phtotchemical hydrogen pro2 duction with platinized suspensions of cadmium sulfide and cadmium zinc sulfide modified by silver sulfide[J ]. J Phys Chem , 1986 , 90 (5) : 824Ο834. [9 ] YOUN H C , BARAL S , FENDL ER J. Dihexadecyl phosphate , vesicle2stabilized and in situ generated mixed CdS and ZnS semiconductor particles: prepara2 tion and utilization for photosensitized charge separa2 tion and hydrogen generation[J ]. J Phys Chem , 1988 , 92 (22) :6320Ο6327. [10 ] XIN G Chanjuan , ZHAN G Yaojun , YAN Wei , et al. Band structure2controlled solid solution of Cd1 - x Znx S photocatalyst for hydrogen production by water split2 ting[J ]. Int J Hydrogen Energy , 2006 , 31 (14) :2018Ο 2024. [11 ] TSUJ I I , KA TO H , KOBA YASHI H , et al. Photo2 catalytic H2 evolution reaction from aqueous solutions over band structure2controlled (AgIn) x Zn2 (1 - x) S2 solid solution photocatalysts with visible2light response and their surface nanostructures [J ]. J Am Chem Soc , 2004 , 126 (41) :13406Ο13413. [12 ] TSUJ I I , KA TO H , KOBA YASHI H , et al. Photo2 catalytic H2 evolution under visible2light Irradiation over band2structure2controlled (CuIn) x Zn2 (1 - x) S2 solid solutions[J ]. J Phys Chem :B , 2005 , 109 (15) :7323Ο 7329. [13 ] TSUJ I I , KA TO H , KUDO A. Visible2light2induced H2 evolution from an aqueous solution containing sul2 fide and sulfite over a ZnS2uInS22AgInS2 solid2solution photocatalyst[J ]. Angew Chem ,2005 , 44 (23) :3565Ο 3568. [14 ] MAEDA K , TERAMURA K , LU Daling , et al. Pho2 tocatalyst releasing hydrogen from water[J ]. Nature , 2006 , 440 (7082) :295. (编辑 荆树蓉 赵大良) (上接第 312 页) [3 ] VAID YARAMAN S , LACKEY W J , A GRAWAL P K , et al. 1 D model for forced flow2thermal gradient chemical vapor infiltration process for carbon/ carbon composites[J ]. Carbon ,1996 ,34 (9) :1123Ο1133. [ 4 ] GOL ECKI I ,MORRIS R C ,NARASIM HAN D. Rapid densification of porous carbon/ carbon composites by thermal gradient CVI [J ]. App Phys Lett , 1995 , 66 (18) :2334Ο2336. [5 ] 胡志宏. 火箭发动机特种煤油传热特性的试验研究 [D]. 西安 :西安交通大学能源与动力工程学院 , 1996. [6 ] 梁文杰. 石油化学[ M ]. 东营 :中国石油大学 (华东) 出 版社 ,1996 :96Ο104. [7 ] 杨世铭 ,陶文铨. 传热学[ M ]. 4 版. 北京 :高等教育出 版社 ,1998 :221Ο227. (编辑 荆树蓉 赵大良) 384 西 安 交 通 大 学 学 报 第 42 卷
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