C
Christopher J. Arnusch
Researcher at Ben-Gurion University of the Negev
Publications - 78
Citations - 2904
Christopher J. Arnusch is an academic researcher from Ben-Gurion University of the Negev. The author has contributed to research in topics: Membrane & Graphene. The author has an hindex of 25, co-authored 63 publications receiving 1962 citations. Previous affiliations of Christopher J. Arnusch include Rice University & Ludwig Maximilian University of Munich.
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Laser-Induced Graphene by Multiple Lasing: Toward Electronics on Cloth, Paper, and Food
TL;DR: A method of using multiple pulsed-laser scribing to convert a wide range of substrates into laser-induced graphene (LIG) using this multiple lase method, which can be implemented without increasing processing times when compared with laser induction of graphene on polyimide (Kapton) substrates.
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Laser-Induced Graphene in Controlled Atmospheres: From Superhydrophilic to Superhydrophobic Surfaces.
Yilun Li,Duy Xuan Luong,Jibo Zhang,Yash R. Tarkunde,Carter Kittrell,Franklin Sargunaraj,Yongsung Ji,Christopher J. Arnusch,James M. Tour +8 more
TL;DR: Applications of the superhydrophobic LIG are shown in oil/water separation as well as anti-icing surfaces, while the versatility of the controlled atmosphere chamber fabrication method is demonstrated through the improved microsupercapacitor performance generated from LIG films prepared in an O2 atmosphere.
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Sulfur-Doped Laser-Induced Porous Graphene Derived from Polysulfone-Class Polymers and Membranes
TL;DR: The LIG electrodes showed enhanced hydrogen peroxide generation compared to LIG made on polyimide, and showed exceptional biofilm resistance and potent antimicrobial killing effects when treated with Pseudomonas aeruginosa and mixed bacterial culture.
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Laser-Induced Graphene Layers and Electrodes Prevents Microbial Fouling and Exerts Antimicrobial Action
TL;DR: It is shown that laser-induced graphene (LIG) printed on a polyimide film by irradiation with a CO2 infrared laser under ambient conditions is extremely biofilm resistant while as an electrode is strongly antibacterial.
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Laser-Induced Graphene Composites as Multifunctional Surfaces
Duy Xuan Luong,Kaichun Yang,Jongwon Yoon,Swatantra P. Singh,Tuo Wang,Christopher J. Arnusch,James M. Tour +6 more
TL;DR: Using a simple infiltration method, LIG composites (LIGCs) with physical properties that are engineered on various substrate materials are developed, useful in antibacterial applications and Joule-heating applications and as resistive memory device substrates.