2021
DOI: 10.1016/j.jechem.2021.02.011
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Adjusting the SnZn defects in Cu2ZnSn(S,Se)4 absorber layer via Ge4+ implanting for efficient kesterite solar cells

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Cited by 55 publications
(57 citation statements)
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“…Using deep-level transient spectroscopy, Deng et al reported a defect activation energy of 0.581 eV for the Sn-based kesterite, and identied this defect as a recombination centre. 36 As shown in Fig. 5a and in agreement with this experimental observation, this defect could be reported as the substitutional defect Sn Zn with its two-electron transition level (+2/0) at 0.584 eV above the VBM.…”
Section: Defect Identication: Ionisation Levelssupporting
confidence: 87%
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“…Using deep-level transient spectroscopy, Deng et al reported a defect activation energy of 0.581 eV for the Sn-based kesterite, and identied this defect as a recombination centre. 36 As shown in Fig. 5a and in agreement with this experimental observation, this defect could be reported as the substitutional defect Sn Zn with its two-electron transition level (+2/0) at 0.584 eV above the VBM.…”
Section: Defect Identication: Ionisation Levelssupporting
confidence: 87%
“…3,[18][19][20][21][22][23] Both theoretical and experimental approaches have been used. A wide range of cationic substitutions have been investigated: Cu by Ag, 24,25 Zn by Cd, 24,[26][27][28] Sn by Ge, [28][29][30][31][32] S by Se 4 and doping of both Cu 2 -ZnSnS 4 and Cu 2 ZnSnSe 4 by Na, Li, Ga 33 and Ge 18,[34][35][36] or even using more exotic elements as in ref. 20 .…”
Section: Introductionmentioning
confidence: 99%
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“…However, the band-tail states caused by the energetically favorable 2Cu Zn + Sn Zn defect complex are still serious. Recently, it was found experimentally that partially replacing Sn 4+ with Ge 4+ can suppress the deep-levels and improve the V oc of kesterites, 21 while the increased bandgap and the localized bottom of the conduction band (CB) caused by the Ge-4p orbital are unfavorable to the optical absorption and the minority carrier transport. Therefore, the adverse effects induced by Sn Zn defects have not been properly addressed either by adjusting the chemical potentials or substituting elements.…”
Section: Introductionmentioning
confidence: 99%
“…Both theoretical and experimental approaches have been used. A wide range of cationic substitutions have been investigated: Cu by Ag [22], Zn by Cd [23,22], Sn by Ge [24,25,26,27], S by Se [28] and doping of both Cu 2 ZnSnS 4 and Cu 2 ZnSnSe 4 by Na, Li, Ga [29] and Ge [30,31,32,17] or even using more exotic elements as in Ref. [19].…”
Section: Introductionmentioning
confidence: 99%