Effects of alkali-metal block layer to enhance Na diffusion into Cu(in,Ga)Se sub(2) absorber on flexible solar cells

An alkali-metal containing (AC) layer, specifically sodium (Na), is necessary for improving Cu(In sub(x)Ga sub(1-x)) Se sub(2) (CIGS) solar cell performance on an alkali-free flexible substrate. However, we found that Na from the AC precursor layer diffused not only into the CIGS absorber layer but...

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Bibliographic Details
Published in:Solar energy materials and solar cells 2015-02, Vol.133, p.21-25
Main Authors: Moriwaki, Kenichi, Nomoto, Maki, Ishizuka, Shogo, Mukai, Atsushi, Sato, Keigo, Kobayashi, Hiroyuki, Niki, Shigeru
Format: Article
Language:English
Subjects:
CIGS
Control equipment
COPPER INDIUM SELENIDE
COPPER SELENIDE
DIFFUSION
DIFFUSION BARRIERS
Diffusion layers
FOIL
Metal foils
Photovoltaic cells
Solar cells
Tin
TITANIUM DIOXIDE
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Summary:An alkali-metal containing (AC) layer, specifically sodium (Na), is necessary for improving Cu(In sub(x)Ga sub(1-x)) Se sub(2) (CIGS) solar cell performance on an alkali-free flexible substrate. However, we found that Na from the AC precursor layer diffused not only into the CIGS absorber layer but also into our flexible metal foil substrate, the surface of which was covered with an Al sub(2)O sub(3) layer, and thus creating Na depletion in the CIGS layer. In this work, newly developed alkali-metal block (AB) layers are introduced between the AC layers and the metal foil substrates in order to suppress Na diffusion into the substrates and enhance Na diffusion into the CIGS layers. Using different AB layer materials-Ti, TiO sub(2), and TiN-and AC layers with systematically-varied thickness, Na concentrations in the CIGS layers and the solar cell efficiencies are investigated. Ti and TiN AB layers efficiently enhance the Na diffusion into the CIGS absorber layers. As a result, a high efficiency of 17.6% is obtained on the metal foil substrate using optimally prepared AC and AB layer of TiN. The AB layer controls the Na diffusion from the AC layer in one direction, and thus contributes to the precise control of Na concentrations in the CIGS layer. Hence, high efficiency solar cells on a variety of flexible substrates will be achieved comparable to those on soda-lime glass substrates.
ISSN:0927-0248
DOI:10.1016/j.solmat.2014.10.039