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Volumn 260, Issue , 2015, Pages 642-648

Characterization and mechanism of MoS2/CdS composite photocatalyst used for hydrogen production from water splitting under visible light

(2) Xu, Juan a Cao, Xuejun a

a EAST CHINA UNIVERSITY OF SCIENCE AND TECHNOLOGY (China)

Author keywords

Hydrogen; Hydrothermal process; MoS2 CdS; Photocatalysis; Visible light

Indexed keywords

PHOTOCATALYSIS;

COMPOSITE PHOTOCATALYSTS; HYDROTHERMAL PROCESS; MOS2/CDS; VISIBLE LIGHT; WATER SPLITTING;

HYDROGEN;

EID: 84907483820 PISSN: 13858947 EISSN: None Source Type: Journal
DOI: 10.1016/j.cej.2014.07.046 Document Type: Article

Times cited : (236)

References (38)

1
- 79960866463
- Solar Energy Storage Methods
- Hou Y., Vidu R., Stroeve P. Solar Energy Storage Methods. Ind. Eng. Chem. Res. 2011, 50:8954-8964.
- (2011) Ind. Eng. Chem. Res. , vol.50 , pp. 8954-8964
- Hou, Y.¹ Vidu, R.² Stroeve, P.³

2
- 84874461329
- Inorganic nanostructures for photoelectrochemical and photocatalytic water splitting
- Osterloh F.E. Inorganic nanostructures for photoelectrochemical and photocatalytic water splitting. Chem. Soc. Rev. 2013, 42:2294-2320.
- (2013) Chem. Soc. Rev. , vol.42 , pp. 2294-2320
- Osterloh, F.E.¹

3
- 57649159482
- Heterogeneous photocatalyst materials for water splitting
- Kudo A., Miseki Y. Heterogeneous photocatalyst materials for water splitting. Chem. Soc. Rev. 2009, 38:253-278.
- (2009) Chem. Soc. Rev. , vol.38 , pp. 253-278
- Kudo, A.¹ Miseki, Y.²

4
- 78449288259
- Semiconductor-based photocatalytic hydrogen generation
- Chen X., Shen S., Guo L., Mao S.S. Semiconductor-based photocatalytic hydrogen generation. Chem. Rev. 2010, 110:6503-6570.
- (2010) Chem. Rev. , vol.110 , pp. 6503-6570
- Chen, X.¹ Shen, S.² Guo, L.³ Mao, S.S.⁴

5
- 84892998250
- 2
- 2. Catal. Commun. 2014, 47:1-6.
- (2014) Catal. Commun. , vol.47 , pp. 1-6
- Oros-Ruiz, S.¹ Zanella, R.² Collins, S.E.³ Hernández-Gordillo, A.⁴ Gómez, R.⁵

6
- 84880583965
- 2 nanoparticles with enhanced photocatalytic hydrogen production activity
- 2 nanoparticles with enhanced photocatalytic hydrogen production activity. Appl. Catal. A 2013, 466:32-37.
- (2013) Appl. Catal. A , vol.466 , pp. 32-37
- Alkaim, A.F.¹ Kandiel, T.A.² Hussein, F.H.³ Dillert, R.⁴ Bahnemann, D.W.⁵

7
- 84867713634
- 2 nanoparticles by self-assembly for photocatalytic water splitting under visible light
- 2 nanoparticles by self-assembly for photocatalytic water splitting under visible light. Appl. Energy 2012, 100:148-154.
- (2012) Appl. Energy , vol.100 , pp. 148-154
- Liu, S.-H.¹ Syu, H.-R.²

8
- 39149118910
- Self-templated synthesis of nanoporous CdS nanostructures for highly efficient photocatalytic hydrogen production under visible
- Bao N., Shen L., Takata T., Domen K. Self-templated synthesis of nanoporous CdS nanostructures for highly efficient photocatalytic hydrogen production under visible. Chem. Mater. 2008, 20:110-117.
- (2008) Chem. Mater. , vol.20 , pp. 110-117
- Bao, N.¹ Shen, L.² Takata, T.³ Domen, K.⁴

9
- 34648816711
- Solvothermal synthesis of CdS nanowires for photocatalytic hydrogen and electricity production
- Jang J.S., Joshi U.A., Lee J.S. Solvothermal synthesis of CdS nanowires for photocatalytic hydrogen and electricity production. J. Phys. Chem. C 2007, 111:13280-13287.
- (2007) J. Phys. Chem. C , vol.111 , pp. 13280-13287
- Jang, J.S.¹ Joshi, U.A.² Lee, J.S.³

10
- 36049040110
- Photocatalytic generation of hydrogen over mesoporous CdS nanoparticle: effect of particle size, noble metal and support
- Sathish A., Viswanath R.P. Photocatalytic generation of hydrogen over mesoporous CdS nanoparticle: effect of particle size, noble metal and support. Catal. Today 2007, 129:421-427.
- (2007) Catal. Today , vol.129 , pp. 421-427
- Sathish, A.¹ Viswanath, R.P.²

11
- 47049086477
- 2/Pt hybrid photocatalysts on visible light-induced hydrogen production
- 2/Pt hybrid photocatalysts on visible light-induced hydrogen production. J. Mater. Chem. 2008, 18:2379-2385.
- (2008) J. Mater. Chem. , vol.18 , pp. 2379-2385
- Park, H.¹ Choi, W.² Hoffmann, M.R.³

12
- 84872712559
- 2 evolution from water: markedly enhanced activity by controlling Pt reduction environment
- 2 evolution from water: markedly enhanced activity by controlling Pt reduction environment. J. Phys. Chem. C 2013, 117:783-790.
- (2013) J. Phys. Chem. C , vol.117 , pp. 783-790
- Wang, Y.¹ Wang, Y.² Xu, R.³

13
- 68749114050
- Visible-light-driven hydrogen production with extremely high quantum efficiency on Pt-PdS/CdS photocatalyst
- Yan H., Yang J., Ma G., Wu G., Zong X., Lei Z., Shi J., Li C. Visible-light-driven hydrogen production with extremely high quantum efficiency on Pt-PdS/CdS photocatalyst. J. Catal. 2009, 266:165-168.
- (2009) J. Catal. , vol.266 , pp. 165-168
- Yan, H.¹ Yang, J.² Ma, G.³ Wu, G.⁴ Zong, X.⁵ Lei, Z.⁶ Shi, J.⁷ Li, C.⁸

14
- 77956375524
- xS solid solution
- xS solid solution. Green Chem. 2010, 12:1611-1614.
- (2010) Green Chem. , vol.12 , pp. 1611-1614
- Yu, J.¹ Zhang, J.² Jaroniec, M.³

15
- 84866312176
- 2 production performance
- 2 production performance. Nano Lett. 2012, 12:4584-4589.
- (2012) Nano Lett. , vol.12 , pp. 4584-4589
- Zhang, J.¹ Yu, J.G.² Jaroniec, M.³ Gong, J.R.⁴

16
- 84882847874
- Photocatalytic oxidation of ethanol using undoped and Ru-doped titania: acetaldehyde, hydrogen or electricity generation
- Antoniadou M., Vaiano V., Sannino D., Lianos P. Photocatalytic oxidation of ethanol using undoped and Ru-doped titania: acetaldehyde, hydrogen or electricity generation. Chem. Eng. J. 2013, 224:144-148.
- (2013) Chem. Eng. J. , vol.224 , pp. 144-148
- Antoniadou, M.¹ Vaiano, V.² Sannino, D.³ Lianos, P.⁴

17
- 84875829199
- 3 prepared by polymerizable complex method
- 3 prepared by polymerizable complex method. Chem. Eng. J. 2013, 223:200-208.
- (2013) Chem. Eng. J. , vol.223 , pp. 200-208
- Shen, P.¹ Lofaro, J.C.² Woerner, W.R.³ White, M.G.⁴ Su, D.⁵ Orlov, A.⁶

18
- 34447326950
- 2 nanocatalysts
- 2 nanocatalysts. Science 2007, 317.
- (2007) Science , vol.317
- Jaramillo, T.F.¹ Jorgensen, K.P.² Bonde, J.³ Nielsen, J.H.⁴ Horch, S.⁵ Chorkendorff, I.⁶

19
- 17644368513
- 2 nanoparticles as catalyst for hydrogen evolution
- 2 nanoparticles as catalyst for hydrogen evolution. J. Am. Chem. Soc. 2005, 127.
- (2005) J. Am. Chem. Soc. , vol.127
- Hinnemann, B.¹ Moses, P.G.² Bonde, J.³ Jorgensen, K.P.⁴ Nielsen, J.H.⁵ Horch, S.⁶ Chorkendorff, I.⁷ Norskov, J.K.⁸

20
- 77953519949
- 2: a quantum size-confined photocatalyst for hydrogen evolution from water under visible light
- 2: a quantum size-confined photocatalyst for hydrogen evolution from water under visible light. J. Phys. Chem. C 2010, 114.
- (2010) J. Phys. Chem. C , vol.114
- Frame, F.A.¹ Osterloh, F.E.²

21
- 77951666309
- 2 composite and its catalytic degradation effect on methyl orange
- 2 composite and its catalytic degradation effect on methyl orange. J. Mater. Sci. 2010, 45:2640-2648.
- (2010) J. Mater. Sci. , vol.45 , pp. 2640-2648
- Hu, K.¹ Hu, X.² Xu, Y.³ Sun, J.⁴

22
- 84866080033
- 2 evolution activity under visible light irradiation
- 2 evolution activity under visible light irradiation. Appl. Catal. A - Gen 2012, 443:138-144.
- (2012) Appl. Catal. A - Gen , vol.443 , pp. 138-144
- Chen, G.¹ Li, D.² Li, F.³ Fan, Y.⁴ Zhao, H.⁵ Luo, Y.⁶ Yu, R.⁷ Meng, Q.⁸

23
- 75749106272
- 2/CdS catalysts under visible light irradiation
- 2/CdS catalysts under visible light irradiation. J. Phys. Chem. C 2010, 114:1963-1968.
- (2010) J. Phys. Chem. C , vol.114 , pp. 1963-1968
- Zong, X.¹ Wu, G.² Yan, H.³ Ma, G.⁴ Shi, J.⁵ Wen, F.⁶ Wang, L.⁷ Li, C.⁸

24
- 44949200319
- 2 as cocatalyst under visible light irradiation
- 2 as cocatalyst under visible light irradiation. J. Am. Chem. Soc. 2008, 130.
- (2008) J. Am. Chem. Soc. , vol.130
- Zong, X.¹ Yan, H.² Wu, G.³ Ma, G.⁴ Wen, F.⁵ Wang, L.⁶ Li, C.⁷

25
- 0033898704
- Comparative study of CdS thin films deposited by single, continuous, and multiple dip chemical processes
- Oladeji I.O., Chow L., Liu J.R., Chu W.K., Bustamante A.N.P., Fredricksen C., Schulte A.F. Comparative study of CdS thin films deposited by single, continuous, and multiple dip chemical processes. Thin Solid Films 2000, 359:154-159.
- (2000) Thin Solid Films , vol.359 , pp. 154-159
- Oladeji, I.O.¹ Chow, L.² Liu, J.R.³ Chu, W.K.⁴ Bustamante, A.N.P.⁵ Fredricksen, C.⁶ Schulte, A.F.⁷

26
- 0002416644
- Enhancement of Raman Cross Section in CdS due to Resonant Absorption
- Leite R.C.C., Porto S.P.S. Enhancement of Raman Cross Section in CdS due to Resonant Absorption. Phys. Rev. Lett. 1966, 17:10-12.
- (1966) Phys. Rev. Lett. , vol.17 , pp. 10-12
- Leite, R.C.C.¹ Porto, S.P.S.²

27
- 79957464342
- 3: applications to tribological systems
- 3: applications to tribological systems. Tribol. Lett. 2011, 42:301-310.
- (2011) Tribol. Lett. , vol.42 , pp. 301-310
- Windom, B.¹ Sawyer, W.G.² Hahn, D.³

28
- 0003438540
- Cornell University Press, Ithaca, New York
- Pauling L. The Nature of the Chemical Bond 1960, Cornell University Press, Ithaca, New York.
- (1960) The Nature of the Chemical Bond
- Pauling, L.¹

29
- 84875001505
- Graphene oxide-CdS composite with high photocatalytic degradation and disinfection activities under visible light irradiation
- Gao P., Liu J., Sun D.D., Ng W. Graphene oxide-CdS composite with high photocatalytic degradation and disinfection activities under visible light irradiation. J. Hazard. Mater. 2013, 250-251:412-420.
- (2013) J. Hazard. Mater. , pp. 412-420
- Gao, P.¹ Liu, J.² Sun, D.D.³ Ng, W.⁴

30
- 82555180509
- 2 with exposed 001 facets
- 2 with exposed 001 facets. J. Phys. Chem. C 2011, 115:23718-23725.
- (2011) J. Phys. Chem. C , vol.115 , pp. 23718-23725
- Jiang, B.¹ Tian, C.² Pan, Q.³ Jiang, Z.⁴ Wang, J.-Q.⁵ Yan, W.⁶ Fu, H.⁷

31
- 84865305458
- 9 composite: preparation and photocatalytic properties for hydrogen evolution under visible light irradiation
- 9 composite: preparation and photocatalytic properties for hydrogen evolution under visible light irradiation. Chem. Eng. J. 2012, 204-206:1-7.
- (2012) Chem. Eng. J. , pp. 1-7
- Cui, W.¹ Ma, S.² Liu, L.³ Liang, Y.⁴

32
- 84860835470
- 9 composite for photocatalytic hydrogen evolution under visible light irradiation
- 9 composite for photocatalytic hydrogen evolution under visible light irradiation. J. Mol. Catal. A: Chem. 2012, 359:35-41.
- (2012) J. Mol. Catal. A: Chem. , vol.359 , pp. 35-41
- Cui, W.¹ Ma, S.² Liu, L.³ Hu, J.⁴ Liang, Y.⁵

33
- 84876772876
- 10 composite: a new photocatalyst for hydrogen evolution under visible light irradiation
- 10 composite: a new photocatalyst for hydrogen evolution under visible light irradiation. Catal. Today 2013, 207:44-49.
- (2013) Catal. Today , vol.207 , pp. 44-49
- Cui, W.¹ Liu, L.² Ma, S.³ Liang, Y.⁴ Zhang, Z.⁵

34
- 84898889883
- 3/AgX heterojunctions achieved by surface modification
- 3/AgX heterojunctions achieved by surface modification. Dalton Trans. 2014, 43:7282-7289.
- (2014) Dalton Trans. , vol.43 , pp. 7282-7289
- Dong, H.¹ Chen, G.² Sun, J.³ Feng, Y.⁴ Li, C.⁵ Xiong, G.⁶ Lv, C.⁷

35
- 84892891386
- 2
- 2. J. Mater. Chem. A 2014, 2:2101-2109.
- (2014) J. Mater. Chem. A , vol.2 , pp. 2101-2109
- Wei, X.-L.¹ Zhang, H.² Guo, G.-C.³ Li, X.-B.⁴ Lau, W.-M.⁵ Liu, L.-M.⁶

36
- 0035891138
- Photoelectrochemical cells
- Gratzel M. Photoelectrochemical cells. Nature 2001, 414:338-344.
- (2001) Nature , vol.414 , pp. 338-344
- Gratzel, M.¹

37
- 84870717912
- 3 heterojunction based composite photocatalyst for degradation of Rhodamine 6G dye
- 3 heterojunction based composite photocatalyst for degradation of Rhodamine 6G dye. Chem. Eng. J. 2013, 215-216:608-615.
- (2013) Chem. Eng. J. , pp. 608-615
- Nashim, A.¹ Parida, K.M.²

38
- 77957661311
- 2 evolution from lactic acid sacrificial solution under visible light
- 2 evolution from lactic acid sacrificial solution under visible light. Chem. Commun. 2010, 46:7631-7633.
- (2010) Chem. Commun. , vol.46 , pp. 7631-7633
- Zhang, W.¹ Wang, Y.² Wang, Z.³ Zhong, Z.⁴ Xu, R.⁵

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.