Cu2ZnSn(S1−xSex)4 based solar cell produced by selenization of vacuum deposited precursors

“…Concerning the back contact, ZnX was observed at the back contact [59,106], as shown in Figure 6, and it seems that increasing the ZnX content strongly impairs efficiency [47]. It was nevertheless speculated that ZnS could be less detrimental than previously thought [72], acting as a simple "dark" material.…”

“…Concerning the reaction mechanism, for stacked metals, it is beneficial to have Cu and Sn in close contact for the formation of large CZTS grains [106]. If they are separated by Zn or Zn(S, Se), the reaction between copper chalcogenides and tin chalcogenides, which is necessary to form Cu 2 SnX 3 [82], could be inhibited [107].…”

“…Oxidation of the CZTS absorber by dipping in deionized water [13] or O 2 annealing [73] before deposition of CdS seems to improve efficiencies. As for CIGS, reducing the time between absorber synthesis and CdS deposition to the minimum is of the utmost importance [106].…”

Kësterite thin films for photovoltaics : a review

“…Concerning the back contact, ZnX was observed at the back contact [59,106], as shown in Figure 6, and it seems that increasing the ZnX content strongly impairs efficiency [47]. It was nevertheless speculated that ZnS could be less detrimental than previously thought [72], acting as a simple "dark" material.…”

“…Concerning the reaction mechanism, for stacked metals, it is beneficial to have Cu and Sn in close contact for the formation of large CZTS grains [106]. If they are separated by Zn or Zn(S, Se), the reaction between copper chalcogenides and tin chalcogenides, which is necessary to form Cu 2 SnX 3 [82], could be inhibited [107].…”

“…Oxidation of the CZTS absorber by dipping in deionized water [13] or O 2 annealing [73] before deposition of CdS seems to improve efficiencies. As for CIGS, reducing the time between absorber synthesis and CdS deposition to the minimum is of the utmost importance [106].…”

Kësterite thin films for photovoltaics : a review

“…CZTSS has a direct band gap of 1.45 1.6 eV and an optical absorption coefficient of around 10 5 cm -1 [1,2]. Recently several groups reported CZTSS thin-films prepared by variety of fabrication methods, namely sputtering [2][3][4][5], physical vapor deposition [6][7][8][9][10][11], solution-particle approach [12][13][14], photochemical deposition [15], sol-gel method [16], screen-printing [17], and electroplating [18][19][20][21][22][23][24][25][26]. The best conversion efficiency of the CZTS solar cell is reported to be 11.1% using ink-based solution-particle approach [27].…”

3.6%-CZTSS Device Fabricated From Ionic Liquid Electrodeposited Sn Layer

“…CZTS has a direct band gap of 1.45 1.6 eV and an optical absorption coefficient of around 10 5 cm -1 [1,2]. Recently several groups reported a CZTS thinfilms fabrication method using a variety of fabrication methods, namely sputtering [2][3][4][5], physical vapor deposition [6][7][8][9][10][11], a solution-particle approach [12][13][14], photochemical deposition [15], the sol-gel method [16], screen-printing [17], and electroplating [18][19][20][21][22][23][24][25][26]. The best conversion efficiency of the CZTS solar cell is reported to be 10% [12][13][14].…”

Cu-Zn-Sn-S Thin Films from Electrodeposited Metallic Precursor Layers