Formation of van der Waals Stacked p–n Homojunction Optoelectronic Device of Multilayered ReSe<sub>2</sub> by Cr Doping
Adzilah Shahna Rosyadi, Alvin Hsien‐Yi Chan, Jia‐Xin Li, Chang‐Hua Liu, Ching‐Hwa Ho
Abstract
Abstract The formation of p‐ or n‐type material via impurity doping should be crucial and essentially prior to the establishment of junction devices in semiconductor processing. Especially in a 2D transition‐metal dichalcogenide (TMD), dopant selection for growing p‐ and n‐type TMD semiconductors may suffer much higher difficulty and complexity than conventional Si and III–V compounds owing to the complicated valences occurred in transition metals. Different amount of chromium doped in ReSe 2 interestingly showing dissimilar carrier types of p‐ReSe 2 with Cr 10% and 20% doping and n‐ReSe 2 with Cr 0%, 1%, and 5% doping, respectively, is presented here. According to structural and optical characterization, the crystal structure and bandgap of the Cr‐doped ReSe 2 remain unchanged in which a deeper donor of Cr 6+ can exist in n‐ReSe 2 (1% and 5%) while a shallow acceptor of Cr 3+ may appear in p‐ReSe 2 multilayer (10% and 20%). A p–n homojunction light‐emitting diode made by stacking multilayered n‐ReSe 2 (Cr 0%) and p‐ReSe 2 (Cr 20%) is first fabricated, and it emits an electroluminescence of ≈946 nm from the band edge. Another p–n homojunction solar cell is also manufactured to exhibit a maximum axial conversion efficiency of η ≈ 1.05% along with the b ‐axis polarization of ReSe 2 .