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Article Abstract
Self-powered microelectronics are essential for the sustained and autonomous operations of wireless electronics and microrobots. However, they are challenged by integratable microenergy supplies. Herein, we report a single-layer (SL) MoS/graphene heterostructure for stable Zn-ion microbatteries. The MoS/graphene heterostructure not only provides high chemical affinity for Zn and generates perfect lattice matching for Zn (002) deposition, but also facilitates homogeneous current density distribution. As a result, Zn metal is reversibly epitaxially plating/stripping at/from the heterostructure, without the formation of dendrites. The MoS/graphene-based Zn||MnO microbattery with a tiny footprint area sub-0.1 mm shows a stable high capacity of 0.16 mAh cm at 0.5 mA cm within 470 cycles. Using a single piece of crystalline MoS/graphene film, on-chip microbatteries and transistors were simultaneously fabricated via a facile lithography process, achieving highly integrated self-powered field-effect transistors and photodetector. The SL MoS/graphene-based self-powered monolithically integrated microsystem paves a new way for the multi-functionalization and miniaturization of next-generation electronics.
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| http://dx.doi.org/10.1016/j.scib.2024.11.023 | DOI Listing |
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