Wanbo Li
Hong Kong Baptist University
25 Papers
65 Citations
Wanbo Li is an academic researcher from Hong Kong Baptist University. The author has contributed to research in topics: Surface plasmon resonance & Plasmon. The author has an hindex of 11, co-authored 16 publications. Previous affiliations of Wanbo Li include Sun Yat-sen University & City University of Hong Kong.
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Papers
Defect-induced activity enhancement of enzyme-encapsulated metal-organic frameworks revealed in microfluidic gradient mixing synthesis
Chong Hu,Chong Hu,Yunxiu Bai,Miao Hou,Yisu Wang,Licheng Wang,Xun Cao,Chiu Wing Chan,Han Sun,Wanbo Li,Jun Ge,Kangning Ren +11 more
TL;DR: This work suggests that while microfluidic flow synthesis is currently underexplored, it is a promising strategy in producing highly active enzyme-MOF composites.
227
A Skin‐Inspired Design Integrating Mechano–Chemical–Thermal Robustness into Superhydrophobic Coatings
Hailong Zhang,Xinyun Bu,Wanbo Li,Miao Miao Cui,Xingxiang Ji,Furong Tao,Li-Hong Gai,Haihui Jiang,Libin Liu,Zuankai Wang +9 more
TL;DR: In this paper , an integral skin-inspired triple-layered coating (STC) is proposed to resolve conflicting demands imposed by individual features on the structural, chemical, mechanical, and thermal properties of materials.
82
Triboelectric wetting for continuous droplet transport
Wanghuai Xu,Yuankai Jin,Wanbo Li,Yuxin Song,Shouwei Gao,Baoping Zhang,Lili Wang,Miao Miao Cui,Xiantong Yan,Zuankai Wang +9 more
TL;DR: In this article , the authors developed a largely unexplored triboelectric wetting (TEW) phenomenon that can directly exploit the tribolectric charges to achieve the programmed and precise water droplet control.
80
Ultra-durable superhydrophobic cellular coatings
Wancheng Gu,Wanbo Li,Yu Zhang,Yage Xia,Qiaoling Wang,Wei Wang,Minghui Liu,Xinquan Yu,Hui He,Caihua Liang,Youxue Ban,Changwen Mi,Sha Yang,Wei Liu,Miao Miao Cui,Xu Deng,Zuankai Wang,Youfa Zhang +17 more
TL;DR: Researchers develop ultra-durable, superhydrophobic coatings with liquid-repellence, vapor-imperviousness, and solid-shedding capabilities using basic cells with rigid microshells and nanoseeds, demonstrating strong anti-abrasion and anti-corrosion properties in various environments.
76
A suspending-droplet mode paper-based microfluidic platform for low-cost, rapid, and convenient detection of lead(II) ions in liquid solution.
TL;DR: A paper-based microfluidic device based on unconventional principle was developed and used to detect lead ions through a two-step process including heated incubation and subsequent mixing to demonstrate rapid, convenient, highly sensitive, and low cost detection of lead(II) ions in water samples.
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