SCOPUS 정보 검색 플랫폼

Progress in Photovoltaics: Research and Applications

Volumn 23, Issue 12, 2015, Pages 1884-1895

Impact of alloying duration of an electrodeposited Cu/Sn/Zn metallic stack on properties of Cu2ZnSnS4 absorbers for thin-film solar cells

(7) Jiang, Feng a Ikeda, Shigeru a Tang, Zeguo b Minemoto, Takashi b Septina, Wilman a Harada, Takashi a Matsumura, Michio a

a OSAKA UNIVERSITY (Japan)

b RITSUMEIKAN UNIVERSITY (Japan)

Author keywords

alloying; CZTS solar cell; electrodeposition; interface recombination; surface morphology

Indexed keywords

ACTIVATION ENERGY; ALLOYING; CADMIUM SULFIDE; CORROSION; ELECTRODEPOSITION; ELECTRODES; ELECTRONIC PROPERTIES; ELECTROPHYSIOLOGY; OPEN CIRCUIT VOLTAGE; PREHEATING; SOLAR ABSORBERS; SOLAR CELLS; SURFACE MORPHOLOGY;

ACCEPTOR LEVELS; CZTS SOLAR CELLS; EXTERNAL QUANTUM EFFICIENCY; INTERFACE RECOMBINATION; LONG-WAVELENGTH REGIONS; STRUCTURAL AND ELECTRONIC PROPERTIES; TEMPERATURE PROPERTIES; THIN FILM SOLAR CELLS;

COPPER;

EID: 84957972383 PISSN: 10627995 EISSN: 1099159X Source Type: Journal
DOI: 10.1002/pip.2638 Document Type: Article

Times cited : (45)

References (56)

1
- 84864479998
- Kesterites - a challenging material for solar cells
- Siebentritt S, Schorr S,. Kesterites - a challenging material for solar cells. Progress in Photovoltaics: Research and Applications 2012; 20: 512-519.
- (2012) Progress in Photovoltaics: Research and Applications , vol.20 , pp. 512-519
- Siebentritt, S.¹ Schorr, S.²

2
- 57049143771
- 4-based thin film solar cells by using preferential etching technique
- 4-based thin film solar cells by using preferential etching technique. Applied Physics Express 2008; 1: 041201-1-041201-3.
- (2008) Applied Physics Express , vol.1 , pp. 0412011-0412013
- Katagiri, H.¹ Jimbo, K.² Yamada, S.³ Kamimura, T.⁴ Maw, W.S.⁵ Fukano, T.⁶ Ito, T.⁷ Motohiro, T.⁸

3
- 58949103830
- Development of CZTS-based thin film solar cells
- Katagiri H, Jimbo K, Maw WS, Oishi K, Yamazaki M, Araki H, Takeuchi A,. Development of CZTS-based thin film solar cells. Thin Solid Films 2009; 517: 2455-2460.
- (2009) Thin Solid Films , vol.517 , pp. 2455-2460
- Katagiri, H.¹ Jimbo, K.² Maw, W.S.³ Oishi, K.⁴ Yamazaki, M.⁵ Araki, H.⁶ Takeuchi, A.⁷

4
- 84880819603
- 4 thin films using Sn vapor transport for photovoltaic applications
- 4 thin films using Sn vapor transport for photovoltaic applications. Applied Physics Express 2013; 6: 075503-1-075503-3.
- (2013) Applied Physics Express , vol.6 , pp. 0755031-0755033
- Toyama, T.¹ Konishi, T.² Seo, Y.³ Tsuji, R.⁴ Terai, K.⁵ Nakashima, Y.⁶ Okamoto, H.⁷ Tsutsumi, Y.⁸

5
- 84872283994
- 4 based solar cells
- 4 based solar cells. Applied Physics Letters 2013; 102: 013902-1-013902-3.
- (2013) Applied Physics Letters , vol.102 , pp. 0139021-0139023
- Brammertz, G.¹ Buffière, M.² Mevel, Y.³ Ren, Y.⁴ Zaghi, A.E.⁵ Lenaers, N.⁶ Mols, Y.⁷ Koeble, C.⁸ Vleugels, J.⁹ Meuris, M.¹⁰ Poortmans, J.¹¹

6
- 84879684547
- 4/i-a-Si/n-a-Si thin film solar cells
- 4/i-a-Si/n-a-Si thin film solar cells. Applied Surface Science 2013; 280: 138-143.
- (2013) Applied Surface Science , vol.280 , pp. 138-143
- Jiang, F.¹ Shen, H.²

7
- 84890838755
- Characterization of a CZTS thin film solar cell grown by sputtering method
- Dhakal TP, Peng CY, Tobias RR, Dasharathy R, Westgate CR,. Characterization of a CZTS thin film solar cell grown by sputtering method. Solar Energy 2014; 100: 23-30.
- (2014) Solar Energy , vol.100 , pp. 23-30
- Dhakal, T.P.¹ Peng, C.Y.² Tobias, R.R.³ Dasharathy, R.⁴ Westgate, C.R.⁵

8
- 84893639717
- Cu-rich precursors improve kesterite solar cells
- Mousel M, Schwarz T, Djemour R, Weiss TP, Sendler J, Malaquias JC, Redinger A, Cojocaru-Mirédin O, Choi PP, Siebentritt S,. Cu-rich precursors improve kesterite solar cells. Advanced Energy Materials 2014; 4: 1300543-1-1300543-6.
- (2014) Advanced Energy Materials , vol.4 , pp. 13005431-13005436
- Mousel, M.¹ Schwarz, T.² Djemour, R.³ Weiss, T.P.⁴ Sendler, J.⁵ Malaquias, J.C.⁶ Redinger, A.⁷ Cojocaru-Mirédin, O.⁸ Choi, P.P.⁹ Siebentritt, S.¹⁰

9
- 77958071885
- 4 solar cells
- 4 solar cells. Applied Physics Letters 2010; 97: 143508-1-143508-3.
- (2010) Applied Physics Letters , vol.97 , pp. 1435081-1435083
- Wang, K.¹ Gunawan, O.² Todorov, T.³ Shin, B.⁴ Chey, S.J.⁵ Bojarczuk, N.A.⁶ Mitzi, D.⁷ Guha, S.⁸

10
- 84859519519
- 4 films and devices
- 4 films and devices. Solar Energy Materials and Solar Cells 2012; 101: 154-159.
- (2012) Solar Energy Materials and Solar Cells , vol.101 , pp. 154-159
- Repins, I.¹ Beall, C.² Vora, N.³ DeHart, C.⁴ Kuciauskas, D.⁵ Dippo, P.⁶ To, B.⁷ Mann, J.⁸ Hsu, W.C.⁹ Goodrich, A.¹⁰ Noufi, R.¹¹

11
- 84873680456
- 4 absorber
- 4 absorber. Progress in Photovoltaics: Research and Applications 2013; 21: 72-76.
- (2013) Progress in Photovoltaics: Research and Applications , vol.21 , pp. 72-76
- Shin, B.¹ Gunawan, O.² Zhu, Y.³ Bojarczuk, N.A.⁴ Chey, S.J.⁵ Guha, S.⁶

12
- 84858634746
- Earth-abundant element photovoltaics directly from soluble precursors with high yield using a non-toxic solvent
- Ki W, Hillhouse HW,. Earth-abundant element photovoltaics directly from soluble precursors with high yield using a non-toxic solvent. Advanced Energy Materials 2011; 1: 732-735.
- (2011) Advanced Energy Materials , vol.1 , pp. 732-735
- Ki, W.¹ Hillhouse, H.W.²

13
- 84878336234
- 4 thin films by a precursor solution paste for thin film solar cell applications
- 4 thin films by a precursor solution paste for thin film solar cell applications. ACS Applied Materials & Interfaces 2013; 5: 4162-4165.
- (2013) ACS Applied Materials & Interfaces , vol.5 , pp. 4162-4165
- Cho, J.W.¹ Ismail, A.² Park, S.J.³ Kim, W.⁴ Yoon, S.⁵ Min, B.K.⁶

14
- 78650118424
- Fabrication of 7.2% efficient CZTSSe solar cells using CZTS nanocrystals
- Guo Q, Ford GM, Yang WC, Walker BC, Stach EA, Hillhouse HW, Agrawal R,. Fabrication of 7.2% efficient CZTSSe solar cells using CZTS nanocrystals. Journal of the American Chemical Society 2010; 132: 17384-17386.
- (2010) Journal of the American Chemical Society , vol.132 , pp. 17384-17386
- Guo, Q.¹ Ford, G.M.² Yang, W.C.³ Walker, B.C.⁴ Stach, E.A.⁵ Hillhouse, H.W.⁶ Agrawal, R.⁷

15
- 84855176276
- A non-toxic, solution-processed, earth abundant absorbing layer for thin-film solar cells
- Woo K, Kim Y, Moon J,. A non-toxic, solution-processed, earth abundant absorbing layer for thin-film solar cells. Energy and Environmental Science 2012; 5: 5340-5345.
- (2012) Energy and Environmental Science , vol.5 , pp. 5340-5345
- Woo, K.¹ Kim, Y.² Moon, J.³

16
- 84866699553
- 4 thin-film solar cells prepared from binary and ternary nanoparticles
- 4 thin-film solar cells prepared from binary and ternary nanoparticles. Journal of the American Chemical Society 2012; 134: 15644-15647.
- (2012) Journal of the American Chemical Society , vol.134 , pp. 15644-15647
- Cao, Y.¹ Denny, M.S.² Caspar, J.V.³ Farneth, W.E.⁴ Guo, Q.⁵ Ionkin, A.S.⁶ Johnson, L.K.⁷ Lu, M.⁸ Malajovich, I.⁹ Radu, D.¹⁰ Rosenfeld, H.D.¹¹ Choudhury, K.R.¹² Wu, W.¹³

17
- 84880768632
- 4 solar cells fabricated by a nanoparticle-based approach
- 4 solar cells fabricated by a nanoparticle-based approach. Applied Physics Express 2013; 6: 072302-1-072302-3.
- (2013) Applied Physics Express , vol.6 , pp. 0723021-0723023
- Zhang, Y.¹ Suyama, N.² Goto, M.³ Yin, M.⁴ Yamada, A.⁵

18
- 77953159889
- High-efficiency solar cell with earth-abundant liquid-processed absorber
- Todorov TK, Reuter KB, Mitzi DB, High-efficiency solar cell with earth-abundant liquid-processed absorber. Advanced Materials 2010; 22: E156-E159.
- (2010) Advanced Materials , vol.22 , pp. E156-E159
- Todorov, T.K.¹ Reuter, K.B.² Mitzi, D.B.³

19
- 78650363266
- 4 solar cells
- 4 solar cells. Applied Physics Letters 2010; 97: 233506-1-233506-3.
- (2010) Applied Physics Letters , vol.97 , pp. 2335061-2335063
- Gunawan, O.¹ Todorov, T.K.² Mitzi, D.B.³

20
- 84860381454
- Low band gap liquid-processed CZTSe solar cell with 10.1% efficiency
- Bag S, Gunawan O, Gokmen T, Zhu Y, Todorov TK, Mitzi DB,. Low band gap liquid-processed CZTSe solar cell with 10.1% efficiency. Energy and Environmental Science 2012; 5: 7060-7065.
- (2012) Energy and Environmental Science , vol.5 , pp. 7060-7065
- Bag, S.¹ Gunawan, O.² Gokmen, T.³ Zhu, Y.⁴ Todorov, T.K.⁵ Mitzi, D.B.⁶

21
- 84862105886
- 3
- 3. Applied Physics Letters 2012; 100: 193904-1-1939043.
- (2012) Applied Physics Letters , vol.100 , pp. 1939041-1939043
- Barkhouse, D.A.R.¹ Haight, R.² Sakai, N.³ Hiroi, H.⁴ Sugimoto, H.⁵ Mitzi, D.B.⁶

22
- 84870941443
- 4 solar cells
- 4 solar cells. Advanced Materials 2012; 24: 6323-6329.
- (2012) Advanced Materials , vol.24 , pp. 6323-6329
- Yang, W.¹ Duan, H.-S.² Bob, B.³ Zhou, H.⁴ Lei, B.⁵ Chung, C.-H.⁶ Li, S.-H.⁷ Hou, W.W.⁸ Yang, Y.⁹

23
- 84874594401
- 4 solar cells
- 4 solar cells. Advanced Energy Materials 2013; 3: 34-38.
- (2013) Advanced Energy Materials , vol.3 , pp. 34-38
- Todorov, T.K.¹ Tang, J.² Bag, S.³ Gunawan, O.⁴ Gokmen, T.⁵ Zhu, Y.⁶ Mitzi, D.B.⁷

24
- 84900471424
- Device characteristics of CZTSSe thin-film solar cells with 12.6% efficiency
- Wang W, Winkler MT, Gunawan O, Gokmen T, Todorov TK, Zhu Y, Mitzi DB,. Device characteristics of CZTSSe thin-film solar cells with 12.6% efficiency. Advanced Energy Materials 2014; 4: 1301465-1-1301465-5.
- (2014) Advanced Energy Materials , vol.4 , pp. 13014651-13014655
- Wang, W.¹ Winkler, M.T.² Gunawan, O.³ Gokmen, T.⁴ Todorov, T.K.⁵ Zhu, Y.⁶ Mitzi, D.B.⁷

25
- 54949083460
- 4 as an alternative absorber material
- 4 as an alternative absorber material. Physica Status Solidi B 2008; 245: 1772-1778.
- (2008) Physica Status Solidi B , vol.245 , pp. 1772-1778
- Scragg, J.J.¹ Dale, P.J.² Peter, L.M.³ Zoppi, G.⁴ Forbes, I.⁵

26
- 58949083682
- 4 thin film solar cells from electroplated precursors: novel low-cost perspective
- 4 thin film solar cells from electroplated precursors: novel low-cost perspective. Thin Solid Films 2009; 517: 2511-2514.
- (2009) Thin Solid Films , vol.517 , pp. 2511-2514
- Ennaoui, A.¹ Lux-Steiner, M.² Weber, A.³ Abou-Ras, D.⁴ Kötschau, I.⁵ Schock, H.-W.⁶ Schurr, R.⁷ Hölzing, A.⁸ Jost, S.⁹ Hock, R.¹⁰ Voß, T.¹¹ Schulze, J.¹² Kirbs, A.¹³

27
- 70349433920
- 4 thin films by sulfurization of co-electroplated Cu-Zn-Sn precursors
- 4 thin films by sulfurization of co-electroplated Cu-Zn-Sn precursors. Physica Status Solidi C 2009; 6: 1266-1268.
- (2009) Physica Status Solidi C , vol.6 , pp. 1266-1268
- Araki, H.¹ Kubo, Y.² Jimbo, K.³ Maw, W.S.⁴ Katagiri, H.⁵ Yamazaki, M.⁶ Oishi, K.⁷ Takeuchi, A.⁸

28
- 77955327561
- A 3.2% efficient Kesterite device from electrodeposited stacked elemental layers
- Scragg JJ, Berg DM, Dale PJ,. A 3.2% efficient Kesterite device from electrodeposited stacked elemental layers. Journal of Elecrtoanalytical Chemistry 2010; 646: 52-59.
- (2010) Journal of Elecrtoanalytical Chemistry , vol.646 , pp. 52-59
- Scragg, J.J.¹ Berg, D.M.² Dale, P.J.³

29
- 84862580637
- 4 solar cell
- 4 solar cell. Advanced Energy Materials 2012; 2: 253-259.
- (2012) Advanced Energy Materials , vol.2 , pp. 253-259
- Ahmed, S.¹ Reuter, K.B.² Gunawan, O.³ Guo, L.⁴ Romankiw, L.T.⁵ Deligianni, H.⁶

30
- 84870716715
- 4 thin film with a kesterite structure
- 4 thin film with a kesterite structure. Electrochimica Acta 2013; 88: 436-442.
- (2013) Electrochimica Acta , vol.88 , pp. 436-442
- Septina, W.¹ Ikeda, S.² Kyoraiseki, A.³ Harada, T.⁴ Matsumura, M.⁵

31
- 84881545188
- 4 thin films from an electrodeposited Cu-Zn-Sn-Se/Cu-Sn-Se bilayer
- 4 thin films from an electrodeposited Cu-Zn-Sn-Se/Cu-Sn-Se bilayer. Physica Status Solidi C 2013; 10: 1062-1066.
- (2013) Physica Status Solidi C , vol.10 , pp. 1062-1066
- Septina, W.¹ Ikeda, S.² Harada, T.³ Matsumura, M.⁴

32
- 84890560307
- 4 thin film solar cell with 7% power conversion efficiency
- 4 thin film solar cell with 7% power conversion efficiency. Progress in Photovoltaics: Research and Applications 2014; 22: 58-68.
- (2014) Progress in Photovoltaics: Research and Applications , vol.22 , pp. 58-68
- Guo, L.¹ Zhu, Y.² Gunawan, O.³ Gokmen, T.⁴ Deline, V.R.⁵ Ahmed, S.⁶ Romankiw, L.T.⁷ Deligianni, H.⁸

33
- 84888350500
- 4 thin films
- 4 thin films. Solar Energy Materials and Solar Cells 2014; 120: 218-225.
- (2014) Solar Energy Materials and Solar Cells , vol.120 , pp. 218-225
- Lin, Y.¹ Ikeda, S.² Septina, W.³ Harada, T.⁴ Matsumura, M.⁵

34
- 84900495065
- 4 thin film solar cells fabricated by preheating an electrodeposited metallic stack
- 4 thin film solar cells fabricated by preheating an electrodeposited metallic stack. Advanced Energy Materials 2014; 4: 1301381-1-1301381-4.
- (2014) Advanced Energy Materials , vol.4 , pp. 13013811-13013814
- Jiang, F.¹ Ikeda, S.² Harada, T.³ Matsumura, M.⁴

35
- 84902322313
- 4-based solar cells with more than 6% conversion efficiency using a sprayed Ga-doped ZnO window layer
- 4-based solar cells with more than 6% conversion efficiency using a sprayed Ga-doped ZnO window layer. Royal Society of Chemistry Advances, 2014; 4: 24351-24355.
- (2014) Royal Society of Chemistry Advances , vol.4 , pp. 24351-24355
- Jiang, F.¹ Ikeda, S.² Harada, T.³ Ide, A.⁴ Mochihara, A.⁵ Yoshino, K.⁶ Matsumura, M.⁷

36
- 56949085970
- 4 thin film by sulfurization of stacked layers
- 4 thin film by sulfurization of stacked layers. Thin Solid Films 2008; 517: 1457-1460.
- (2008) Thin Solid Films , vol.517 , pp. 1457-1460
- Araki, H.¹ Mikaduki, A.² Kubo, Y.³ Sato, T.⁴ Jimbo, K.⁵ Maw, W.S.⁶ Katagiri, H.⁷ Yamazaki, M.⁸ Oishi, K.⁹ Takeuchi, A.¹⁰

37
- 84910125526
- 4 thin films fabricated by electrodeposition method
- 4 thin films fabricated by electrodeposition method. Superlattices and Microstructures 2014; 76: 339-348.
- (2014) Superlattices and Microstructures , vol.76 , pp. 339-348
- Mkawi, E.M.¹ Ibrahim, K.² Ali, M.K.M.³ Farrukh, M.A.⁴ Allam, N.K.⁵

38
- 70350662767
- 4 thin films
- 4 thin films. Journal of Physics D: Applied Physics 2009; 24: 105013-1-105013-7.
- (2009) Journal of Physics D: Applied Physics , vol.24 , pp. 1050131-1050137
- Fernandes, P.A.¹ Salome, P.M.P.² Cunha, A.F.D.³

39
- 79951671756
- Synthesis and optical properties of flower-like ZnO nanorods by thermal evaporation method
- Zheng J, Jiang Q, Lian J,. Synthesis and optical properties of flower-like ZnO nanorods by thermal evaporation method. Applied Surface Science 2011; 257: 5083-5087.
- (2011) Applied Surface Science , vol.257 , pp. 5083-5087
- Zheng, J.¹ Jiang, Q.² Lian, J.³

40
- 34247385809
- 4(X = S, Se) starting from binary chalcogenides
- 4(X = S, Se) starting from binary chalcogenides. Thin Solid Films 2007; 515: 5953-5956.
- (2007) Thin Solid Films , vol.515 , pp. 5953-5956
- Hergert, F.¹ Hock, R.²

41
- 59249085492
- 4 thin film solar cell absorbers from co-electroplated Cu-Zn-Sn precursors
- 4 thin film solar cell absorbers from co-electroplated Cu-Zn-Sn precursors. Thin Solid Films 2009; 517: 2465-2468.
- (2009) Thin Solid Films , vol.517 , pp. 2465-2468
- Schurr, R.¹ Hölzing, A.² Jost, S.³ Hock, R.⁴ Voß, T.⁵ Schulze, J.⁶ Kirbs, A.⁷ Ennaoui, A.⁸ Lux-Steiner, M.⁹ Weber, A.¹⁰ Kötschau, I.¹¹ Schock, H.-W.¹²

42
- 0026417531
- 3 and SnS
- 3 and SnS. Journal of Alloys and Compounds 1991; 177: 17-30.
- (1991) Journal of Alloys and Compounds , vol.177 , pp. 17-30
- Piacente, V.¹ Foglia, S.² Scardala, P.³

43
- 84898946233
- 4 thin films with different composition fabricated by sputtering-sulfurization method
- 4 thin films with different composition fabricated by sputtering-sulfurization method. Solar Energy Materials and Solar Cells 2014; 126: 143-148.
- (2014) Solar Energy Materials and Solar Cells , vol.126 , pp. 143-148
- Tanaka, K.¹ Shinji, T.² Uchiki, H.³

44
- 0005798238
- 2 solar cells
- 2 solar cells. Applied Physics Letters 1998; 73: 1224-1-1224-3.
- (1998) Applied Physics Letters , vol.73 , pp. 12241-12243
- Ohnesorge, B.¹ Weigand, R.² Bacher, G.³ Forchel, A.⁴ Riedl, W.⁵ Karg, F.H.⁶

45
- 34250629739
- 2 thin films
- 2 thin films. Journal of Applied Physics 2007; 101: 113519-1-113519-11.
- (2007) Journal of Applied Physics , vol.101 , pp. 1135191-11351911
- Mattheis, J.¹ Rau, U.² Werner, J.H.³

46
- 84877276314
- Spectrally and time resolved photoluminescence analysis of the CdS/CdTe interface in thin-film photovoltaic solar cells
- Kuciauskas D, Kanevce A, Duenow JN, Dippo P, Young M, Li JV, Levi DH, Gessert TA,. Spectrally and time resolved photoluminescence analysis of the CdS/CdTe interface in thin-film photovoltaic solar cells. Applied Physics Letters 2013; 102: 173902-1-173902-5.
- (2013) Applied Physics Letters , vol.102 , pp. 1739021-1739025
- Kuciauskas, D.¹ Kanevce, A.² Duenow, J.N.³ Dippo, P.⁴ Young, M.⁵ Li, J.V.⁶ Levi, D.H.⁷ Gessert, T.A.⁸

47
- 84903307666
- 2 solar cells fabricated on flexible substrates
- 2 solar cells fabricated on flexible substrates. Japanese Journal of Applied Physics 2014; 53: 05FW03.
- (2014) Japanese Journal of Applied Physics , vol.53 , pp. 05FW03
- Chantana, J.¹ Watanabe, T.² Teraji, S.³ Kawamura, K.⁴ Minemoto, T.⁵

48
- 0035283792
- Theoretical analysis of the effect of conduction band offset of window/CIS layers on performance of CIS solar cells using device simulation
- Minemoto T, Matsui T, Takakura H, Hamakawa Negami YT, Hashimoto Y, Uenoyama T, Kitagawa M,. Theoretical analysis of the effect of conduction band offset of window/CIS layers on performance of CIS solar cells using device simulation. Solar Energy Materials and Solar Cells 2001; 67: 83-88.
- (2001) Solar Energy Materials and Solar Cells , vol.67 , pp. 83-88
- Minemoto, T.¹ Matsui, T.² Takakura, H.³ Hamakawa Negami, Y.T.⁴ Hashimoto, Y.⁵ Uenoyama, T.⁶ Kitagawa, M.⁷

49
- 0036467913
- Light induced changes in the electrical behavior of CdTe and Cu(In,Ga)Se solar cells
- Köntges M, Reineke-Koch R, Nollet P, Beier J, Schäffler R, Parisi J,. Light induced changes in the electrical behavior of CdTe and Cu(In,Ga)Se solar cells. Thin Solid Films 2002; 403-404: 280-286.
- (2002) Thin Solid Films , vol.403-404 , pp. 280-286
- Köntges, M.¹ Reineke-Koch, R.² Nollet, P.³ Beier, J.⁴ Schäffler, R.⁵ Parisi, J.⁶

50
- 80054081433
- 2 thin-film solar cells beyond 20%
- 2 thin-film solar cells beyond 20%. Progress in Photovoltaics: Research and Applications 2011; 19: 894-897.
- (2011) Progress in Photovoltaics: Research and Applications , vol.19 , pp. 894-897
- Jackson, P.¹ Hariskos, D.² Lotter, E.³ Paetel, S.⁴ Wuerz, R.⁵ Menner, R.⁶ Wischmann, W.⁷ Powalla, M.⁸

51
- 76949087617
- 2 thin film solar cells
- 2 thin film solar cells. Journal of Applied Physics 2010; 107: 034509-1-034509-12.
- (2010) Journal of Applied Physics , vol.107 , pp. 0345091-03450912
- Eisenbarth, T.¹ Unold, T.² Caballero, R.³ Kaufmann, C.A.⁴ Schock, H.-W.⁵

52
- 84944180261
- 4 solar cells and the effects of light soaking: elimination of crossover and red kink
- 4 solar cells and the effects of light soaking: elimination of crossover and red kink. Progress in Photovoltaics: Research and Applications 2015. DOI: 10.1002/pip.2589
- (2015) Progress in Photovoltaics: Research and Applications
- Neuschitzer, M.¹ Sanchez, Y.² Lopez-Marino, S.³ Xie, H.⁴ Fairbrother, A.⁵ Placidi, M.⁶ Haass, S.⁷ Lzquierdo-Roca, V.⁸ Perez-Rodriguez, A.⁹ Saucedo, E.¹⁰

53
- 0036468159
- Production technology for CIGS thin film solar cells
- Negami T, Satoh T, Hashimoto Y, Shimakawa S, Hayashi S, Muro M, Inoue H, Kitagawa M,. Production technology for CIGS thin film solar cells. Thin Solid Films 2002; 403-404: 197-203.
- (2002) Thin Solid Films , vol.403-404 , pp. 197-203
- Negami, T.¹ Satoh, T.² Hashimoto, Y.³ Shimakawa, S.⁴ Hayashi, S.⁵ Muro, M.⁶ Inoue, H.⁷ Kitagawa, M.⁸

54
- 77956313830
- 4
- 4. Physical Review B 2010; 81: 245204-1-245204-10.
- (2010) Physical Review B , vol.81 , pp. 2452041-24520410
- Chen, S.¹ Yang, J.H.² Gong, S.G.³ Walsh, A.⁴ Wei, S.H.⁵

55
- 0000058740
- 2-based heterojunction solar cells. Part I. Transport analysis
- 2-based heterojunction solar cells. Part I. Transport analysis. Journal of Applied Physics 2000; 87: 584-593.
- (2000) Journal of Applied Physics , vol.87 , pp. 584-593
- Nadenau, V.¹ Rau, U.² Jasenek, A.³ Schock, H.W.⁴

56
- 79955999119
- 2 heterojunction solar cells
- 2 heterojunction solar cells. Applied Physics Letters 2002; 80: 2598-2600.
- (2002) Applied Physics Letters , vol.80 , pp. 2598-2600
- Turcu, M.¹ Pakma, O.² Rau, U.³

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