Benxin Wu scite author profile

Recent advances achieved in triboelectric nanogenerators (TENG) focus on boosting power generation and conversion efficiency. Nevertheless, obstacles concerning economical and biocompatible utilization of TENGs continue to prevail. Being an abundant natural biopolymer from marine crustacean shells, chitosan enables exciting opportunities for low-cost, biodegradable TENG applications in related fields. Here, the development of biodegradable and flexible TENGs based on chitosan is presented for the first time. The physical and chemical properties of the chitosan nanocomposites are systematically studied and engineered for optimized triboelectric power generation, transforming the otherwise wasted natural materials into functional energy devices. The feasibility of laser processing of constituent materials is further explored for the first time for engineering the TENG performance. The laser treatment of biopolymer films offers a potentially promising scheme for surface engineering in polymer-based TENGs. The chitosan-based TENGs present efficient energy conversion performance and tunable biodegradation rate. Such a new class of TENGs derived from natural biomaterials may pave the way toward the economically viable and ecologically friendly production of flexible TENGs for self-powered nanosystems in biomedical and environmental applications.

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The Anti-inflammatory Effects of Dietary Anthocyanins against Ulcerative Colitis

et al. 2019

IJMS

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Ulcerative colitis (UC), which is a major form of inflammatory bowel disease (IBD), is a chronic relapsing disorder of the gastrointestinal tract affecting millions of people worldwide. Alternative natural therapies, including dietary changes, are being investigated to manage or treat UC since current treatment options have serious negative side effects. There is growing evidence from animal studies and human clinical trials that diets rich in anthocyanins, which are pigments in fruits and vegetables, protect against inflammation and increased gut permeability as well as improve colon health through their ability to alter bacterial metabolism and the microbial milieu within the intestines. In this review, the structure and bioactivity of anthocyanins, the role of inflammation and gut bacterial dysbiosis in UC pathogenesis, and their regulation by the dietary anthocyanins are discussed, which suggests the feasibility of dietary strategies for UC mitigation.

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A self-closed thermal model for laser shock peening under the water confinement regime configuration and comparisons to experiments

Wu¹,

Shin²

2005

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Laser shock peening (LSP) is emerging as a competitive alternative technology to classical treatments to improve fatigue and corrosion properties of metals for a variety of important applications. LSP under a water confinement regime (WCR) can produce plasma pressures on the target surface four times higher and two to three times longer than those under direct regime configurations. However, most of the published thermal models for LSP under WCR are not self-closed, and have free variables which have to come from experimental measurements under the same conditions. In this paper, a self-closed thermal model for LSP under WCR configurations is presented. This model has considered most of the relevant physical processes for laser ablation and plasma formation and expansion, and there are no free variables in the model. The simulation results for pressures from the model are compared with the available experimental results in literature under a variety of laser-pulse conditions, and good agreements are found.

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Infrared long nanosecond laser pulse ablation of silicon: Integrated two-dimensional modeling and time-resolved experimental study

Tao

Zhou

et al. 2012

Applied Surface Science

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Benxin Wu

Engineered and Laser‐Processed Chitosan Biopolymers for Sustainable and Biodegradable Triboelectric Power Generation

The Anti-inflammatory Effects of Dietary Anthocyanins against Ulcerative Colitis

A self-closed thermal model for laser shock peening under the water confinement regime configuration and comparisons to experiments

Infrared long nanosecond laser pulse ablation of silicon: Integrated two-dimensional modeling and time-resolved experimental study

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