- Title
- Microwave nanoarchitectonics of black phosphorene for energy storage
- Creator
- Chahal, Sumit; Bhushan, Rebti; Kumari, Puja; Guan, Xinwei; Lee, Jang Mee; Ray, Soumya Jyoti; Thakur, Awalendra K.; Vinu, Ajayan; Kumar, Prashant
- Relation
- Matter Vol. 7, Issue 1, p. 237-254
- Publisher Link
- http://dx.doi.org/10.1016/j.matt.2023.10.030
- Publisher
- Cell Press
- Resource Type
- journal article
- Date
- 2024
- Description
- Xenes are increasingly pivotal in various applications; particularly, black phosphorene (BP) has recently drawn profuse attention for its tremendous potential in electronics, spintronics, optoelectronics, and energy storage. However, its direct synthesis via bottom-up approaches remains elusive, largely burdened by cumbersome chemistry protocols. Herein, we report a novel large-scale, solution-phase synthesis approach of BP, in which concentrated orthophosphoric acid quickly turns to BP when exposed to microwave irradiation (∼800 W, cumulative ∼10 min consisting of 20 s pulses). While graphene/BP and MoS2/BP heterolayers exhibit metallic and diodic behaviors, respectively, graphene/boron nitride/BP sandwich device displays excellent tunneling (∼20 mA). Interestingly, MoS2-BP hybrid delivers a capacitance of 1,698.8 F g−1, whereas graphene-BP exhibits a larger volumetric current density and a high capacitance of 2,863.5 F g−1 with sustainable reversibility, high load, and high rate capability up to 50 mV s−1. This synthesis provides a universal approach for large-scale production of 2D materials, thereby fueling future advancements in energy storage technologies.
- Subject
- microwave; optoelectronics; phosphorene; energy
- Identifier
- http://hdl.handle.net/1959.13/1494729
- Identifier
- uon:53864
- Identifier
- ISSN:2590-2393
- Language
- eng
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