Zaijun Cheng scite author profile

A high open-circuit voltage betavoltaic microbattery based on a gallium nitride (GaN) p–i–n homojunction is demonstrated. As a beta-absorbing layer, the low electron concentration of the n-type GaN layer is achieved by the process of Fe compensation doping. Under the irradiation of a planar solid 63Ni source with activity of 0.5 mCi, the open-circuit voltage of the fabricated microbattery with 2 × 2 mm2 area reaches as much as 1.64 V, which is the record value reported for betavoltaic batteries with 63Ni source, the short-circuit current was measured as 568 pA and the conversion effective of 0.98% was obtained. The experimental results suggest that GaN is a high-potential candidate for developing the betavoltaic microbattery.

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Design and simulation of GaN based Schottky betavoltaic nuclear micro-battery

San

Yao

Wang

et al. 2013

Applied Radiation and Isotopes

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High open-circuit voltage betavoltaic cell based on GaN pin homojunction

Cheng

San

Feng³

et al. 2011

Electron. Lett.

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Substrate mediated electronic and excitonic reconstruction in a MoS₂ monolayer

et al. 2020

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Porous carbon nanospheres with high EDLC capacitance

Gao

Cheng

2018

Diamond and Related Materials

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Zaijun Cheng

A high open-circuit voltage gallium nitride betavoltaic microbattery

Design and simulation of GaN based Schottky betavoltaic nuclear micro-battery

High open-circuit voltage betavoltaic cell based on GaN pin homojunction

Substrate mediated electronic and excitonic reconstruction in a MoS₂ monolayer

Porous carbon nanospheres with high EDLC capacitance

Contact Info

Product

Resources

About

Zaijun Cheng

A high open-circuit voltage gallium nitride betavoltaic microbattery

Design and simulation of GaN based Schottky betavoltaic nuclear micro-battery

High open-circuit voltage betavoltaic cell based on GaN pin homojunction

Substrate mediated electronic and excitonic reconstruction in a MoS2 monolayer

Porous carbon nanospheres with high EDLC capacitance

Contact Info

Product

Resources

About

Substrate mediated electronic and excitonic reconstruction in a MoS₂ monolayer