Three-dimensional self-assembly of chalcopyrite copper indium diselenide nanocrystals into oriented films

Danielle C. Reifsnyder; Xingchen Ye; Thomas R. Gordon; Chengyu Song; Christopher B. Murray

doi:10.1021/nn4008059

Three-dimensional self-assembly of chalcopyrite copper indium diselenide nanocrystals into oriented films

Danielle C. Reifsnyder, Xingchen Ye, Thomas R. Gordon, Chengyu Song, Christopher B. Murray

Chemistry

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

CuInSe₂, which is one of the highest efficiency thin-film solar cell active layer materials, has been an attractive target for nanocrystal synthesis and manipulation. Here, we report unprecedented, simultaneous control of the synthesis and self-assembly behavior of CuInSe₂ nanocrystals. These nanocrystals are solution-processable, monodisperse tetragonal bipyramids that exhibit photoconductivity and self-assemble into crystallographically oriented thin films. Structural characterization indicates that these nanocrystals are tetragonal phase, as is used in high-efficiency, second-generation, thin-film solar cells. Elemental analysis indicates that approximately 1:1:2 Cu/In/Se stoichiometry can be achieved, and that the elemental composition can be adjusted from copper-rich to indium-rich with reaction time.

Original language	English (US)
Pages (from-to)	4307-4315
Number of pages	9
Journal	ACS nano
Volume	7
Issue number	5
DOIs	https://doi.org/10.1021/nn4008059
State	Published - May 28 2013

All Science Journal Classification (ASJC) codes

General Materials Science
General Engineering
General Physics and Astronomy

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10.1021/nn4008059

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abstract = "CuInSe2, which is one of the highest efficiency thin-film solar cell active layer materials, has been an attractive target for nanocrystal synthesis and manipulation. Here, we report unprecedented, simultaneous control of the synthesis and self-assembly behavior of CuInSe2 nanocrystals. These nanocrystals are solution-processable, monodisperse tetragonal bipyramids that exhibit photoconductivity and self-assemble into crystallographically oriented thin films. Structural characterization indicates that these nanocrystals are tetragonal phase, as is used in high-efficiency, second-generation, thin-film solar cells. Elemental analysis indicates that approximately 1:1:2 Cu/In/Se stoichiometry can be achieved, and that the elemental composition can be adjusted from copper-rich to indium-rich with reaction time.",

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T1 - Three-dimensional self-assembly of chalcopyrite copper indium diselenide nanocrystals into oriented films

AU - Reifsnyder, Danielle C.

AU - Ye, Xingchen

AU - Gordon, Thomas R.

AU - Song, Chengyu

AU - Murray, Christopher B.

PY - 2013/5/28

Y1 - 2013/5/28

N2 - CuInSe2, which is one of the highest efficiency thin-film solar cell active layer materials, has been an attractive target for nanocrystal synthesis and manipulation. Here, we report unprecedented, simultaneous control of the synthesis and self-assembly behavior of CuInSe2 nanocrystals. These nanocrystals are solution-processable, monodisperse tetragonal bipyramids that exhibit photoconductivity and self-assemble into crystallographically oriented thin films. Structural characterization indicates that these nanocrystals are tetragonal phase, as is used in high-efficiency, second-generation, thin-film solar cells. Elemental analysis indicates that approximately 1:1:2 Cu/In/Se stoichiometry can be achieved, and that the elemental composition can be adjusted from copper-rich to indium-rich with reaction time.

AB - CuInSe2, which is one of the highest efficiency thin-film solar cell active layer materials, has been an attractive target for nanocrystal synthesis and manipulation. Here, we report unprecedented, simultaneous control of the synthesis and self-assembly behavior of CuInSe2 nanocrystals. These nanocrystals are solution-processable, monodisperse tetragonal bipyramids that exhibit photoconductivity and self-assemble into crystallographically oriented thin films. Structural characterization indicates that these nanocrystals are tetragonal phase, as is used in high-efficiency, second-generation, thin-film solar cells. Elemental analysis indicates that approximately 1:1:2 Cu/In/Se stoichiometry can be achieved, and that the elemental composition can be adjusted from copper-rich to indium-rich with reaction time.

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Three-dimensional self-assembly of chalcopyrite copper indium diselenide nanocrystals into oriented films

Abstract

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