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Realizing Chemical Codoping in Oxide Semiconductors

We demonstrate experimentally a chemical codoping approach that would simultaneously narrow the band gap and control the band edge positions of oxide semiconductors. Using TiO2 as an example, we show that a sequential doping scheme with nitrogen (N) leading the way, followed by phosphorous (P), is crucial for the incorporation of both N and P into the anion sites. Various characterization techniques confirm the formation of the N-P bonds, and as a consequence of the chemical codoping, the band gap of the TiO2 is reduced from 3.0 eV to 1.8 eV. The realization of chemical codoping could be an important step forward in improving the general performance of electronic and optoelectronic materials and devices.

preprint2013arXivOpen access
Fang WangY. Y. SunJohn B. HatchHui XingHongwang ZhangXiaohong XuHong LuoS. B. ZhangHao Zeng
cond-mat.mtrl-sci
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Fang WangY. Y. SunJohn B. HatchHui XingHongwang ZhangXiaohong XuHong LuoS. B. ZhangHao Zeng

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