Perovskite oxides for visible-light-absorbing ferroelectric and photovoltaic materials

被引:1137
作者
Grinberg, Ilya [1 ]
West, D. Vincent [2 ]
Torres, Maria [3 ]
Gou, Gaoyang [1 ]
Stein, David M. [2 ]
Wu, Liyan [2 ]
Chen, Guannan [3 ]
Gallo, Eric M. [3 ]
Akbashev, Andrew R. [3 ]
Davies, Peter K. [2 ]
Spanier, Jonathan E. [3 ]
Rappe, Andrew M. [1 ]
机构
[1] Univ Penn, Dept Chem, Makineni Theoret Labs, Philadelphia, PA 19104 USA
[2] Univ Penn, Dept Mat Sci & Engn, Philadelphia, PA 19104 USA
[3] Drexel Univ, Dept Mat Sci & Engn, Philadelphia, PA 19104 USA
基金
美国国家科学基金会;
关键词
SUBSTITUTION; PHOTOCURRENT;
D O I
10.1038/nature12622
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
Ferroelectrics have recently attracted attention as a candidate class of materials for use in photovoltaic devices, and for the coupling of light absorption with other functional properties(1-7). In these materials, the strong inversion symmetry breaking that is due to spontaneous electric polarization promotes the desirable separation of photo-excited carriers and allows voltages higher than the bandgap, which may enable efficiencies beyond the maximum possible in a conventional p-n junction solar cell(2,6,8-10). Ferroelectric oxides are also stable in a wide range of mechanical, chemical and thermal conditions and can be fabricated using low-cost methods such as sol-gel thin-film deposition and sputtering(3,5). Recent work(3,5,11) has shown how a decrease in ferroelectric layer thickness and judicious engineering of domain structures and ferroelectric-electrode interfaces can greatly increase the current harvested from ferroelectric absorber materials, increasing the power conversion efficiency from about 10(-4) to about 0.5 per cent. Further improvements in photovoltaic efficiency have been inhibited by the wide bandgaps (2.7-4 electronvolts) of ferroelectric oxides, which allow the use of only 8-20 per cent of the solar spectrum. Here we describe a family of single-phase solid oxide solutions made from low-cost and non-toxic elements using conventional solid-state methods: [KNbO3](1-x)[BaNi1/2Nb1/2O3-delta](x) (KBNNO). These oxides exhibit both ferroelectricity and a wide variation of direct bandgaps in the range 1.1-3.8 electronvolts. In particular, the x = 0.1 composition is polar at room temperature, has a direct bandgap of 1.39 electronvolts and has a photocurrent density approximately 50 times larger than that of the classic ferroelectric (Pb,La)(Zr,Ti)O-3 material. The ability of KBNNO to absorb three to six times more solar energy than the current ferroelectric materials suggests a route to viable ferroelectric semiconductor-based cells for solar energy conversion and other applications.
引用
收藏
页码:509 / +
页数:9
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