Sizhe Chen scite author profile

We report a scalable approach to synthesize a large-area (up to 4 mm) thin black phosphorus (BP) film on a flexible substrate. We first deposited a red phosphorus (RP) thin-film on a flexible polyester substrate, followed by its conversion to BP in a highpressure multi-anvil cell at room temperature. Raman spectroscopy and transmission electron microscopy measurements confirmed the formation of a nano-crystalline BP thin-film with a thickness of around 40 nm. Optical characterization indicates a bandgap of around 0.28 eV in the converted BP, similar to the bandgap measured in exfoliated thin-films. Thin-film BP transistors exhibit a field-effect mobility of around 0.5 cm 2 /Vs, which can probably be further enhanced by the optimization of the conversion process at elevated temperatures. Our work opens the avenue for the future demonstration of largescale, high quality thin-film black phosphorus.

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SAR target recognition based on deep learning

Chen

Wang

2014

185

101

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Crisscross optimization algorithm and its application

Meng

Chen

Yin

et al. 2014

Knowledge-Based Systems

170

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Wind speed forecasting based on wavelet packet decomposition and artificial neural networks trained by crisscross optimization algorithm

Meng

Yin

et al. 2016

Energy Conversion and Management

238

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Sizhe Chen

Target Classification Using the Deep Convolutional Networks for SAR Images

Synthesis of thin-film black phosphorus on a flexible substrate

SAR target recognition based on deep learning

Crisscross optimization algorithm and its application

Wind speed forecasting based on wavelet packet decomposition and artificial neural networks trained by crisscross optimization algorithm

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