Juhong Chen scite author profile

Ultrathin transition metal carbides with high capacity, high surface area, and high conductivity are a promising family of materials for applications from energy storage to catalysis. However, large-scale, cost-effective, and precursor-free methods to prepare ultrathin carbides are lacking. Here, we demonstrate a direct pattern method to manufacture ultrathin carbides (MoC x , WC x , and CoC x ) on versatile substrates using a CO 2 laser. The laser-sculptured polycrystalline carbides (macroporous, ~10–20 nm wall thickness, ~10 nm crystallinity) show high energy storage capability, hierarchical porous structure, and higher thermal resilience than MXenes and other laser-ablated carbon materials. A flexible supercapacitor made of MoC x demonstrates a wide temperature range (−50 to 300 °C). Furthermore, the sculptured microstructures endow the carbide network with enhanced visible light absorption, providing high solar energy harvesting efficiency (~72 %) for steam generation. The laser-based, scalable, resilient, and low-cost manufacturing process presents an approach for construction of carbides and their subsequent applications.

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3D printed microfluidic devices for circulating tumor cells (CTCs) isolation

Chen

Liu

Wang

et al. 2020

Biosensors and Bioelectronics

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Smart traceability for food safety

Jung

Park

et al. 2020

Critical Reviews in Food Science and Nutrition

102

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Juhong Chen

High-throughput and all-solution phase African Swine Fever Virus (ASFV) detection using CRISPR-Cas12a and fluorescence based point-of-care system

Laser-sculptured ultrathin transition metal carbide layers for energy storage and energy harvesting applications

3D printed microfluidic devices for circulating tumor cells (CTCs) isolation

Smart traceability for food safety

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