Title :
Demonstration of a GaN betavoltaic microbattery
Author :
Cheng, Zaijun ; Zhao, Zhiwen ; San, Haisheng ; Chen, Xuyuan
Author_Institution :
Pen-Tung Sah Micro-Nano Technol. Res. Center, Xiamen Univ., Xiamen, China
Abstract :
A GaN-based betavoltaic microbattery was demonstrated. The wide-band gap semiconductor of GaN and pure beta radioisotope source of 63Ni were used as the converter and the energy source. The GaN-based p-i-n junction wafers were epitaxially grown by metal-organic, chemical-vapor deposition (MOCVD) on the 2-inch c-plane sapphire substrates. Under the irradiation of an activity of 2mCi (about 0.13mCi/mm2) 63Ni source, an open-circuit voltage of 474mV and a short-circuit current density of 17nA/cm2 were measured in a fabricated single 1×1 mm2 cell, and the calculated conversion efficiency of 1.8% lower bound can be obtained. The results suggest that the wide-band gap semiconductor of GaN is a high potential candidate of betavoltaics for big open-circuit voltage and high efficiency.
Keywords :
cells (electric); chemical vapour deposition; epitaxial growth; gallium compounds; micromechanical devices; nitrogen compounds; p-i-n diodes; sapphire; semiconductor growth; short-circuit currents; wide band gap semiconductors; C; GaN; MEMS technology; MOCVD; betavoltaic microbattery; epitaxial growth; metal-organic chemical-vapor deposition; microelectromechanical systems; p-i-n junction wafers; short-circuit current; wide-band gap semiconductor; Gallium nitride; Gold; Nickel; P-i-n diodes; PIN photodiodes; Resistance; GaN; betavoltaic; energy conversion; microbattery;
Conference_Titel :
Nano/Micro Engineered and Molecular Systems (NEMS), 2011 IEEE International Conference on
Conference_Location :
Kaohsiung
Print_ISBN :
978-1-61284-775-7
DOI :
10.1109/NEMS.2011.6017533
