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Adv Mater


Title:Stimuli-Responsive Liquid-Crystal-Infused Porous Surfaces for Manipulation of Underwater Gas Bubble Transport and Adhesion
Author(s):Rather AM; Xu Y; Chang Y; Dupont RL; Borbora A; Kara UI; Fang JC; Mamtani R; Zhang M; Yao Y; Adera S; Bao X; Manna U; Wang X;
Address:"William G. Lowrie Department of Chemical and Biomolecular Engineering, The Ohio State University, Columbus, OH, 43210, USA. Davidson School of Chemical Engineering, Purdue Center for Cancer Research, Purdue University, West Lafayette, IN, 47907, USA. Bio-Inspired Polymeric Materials Lab, Department of Chemistry, Indian Institute of Technology-Guwahati, Kamrup, Assam, 781039, India. Division of Chemistry and Chemical Engineering, California Institute of Technology, Pasadena, CA, 91125, USA. Department of Mechanical Engineering, University of Michigan, Ann Arbor, MI, 48109, USA. Centre for Nanotechnology, Indian Institute of Technology-Guwahati, Kamrup, Assam, 781039, India. Sustainability Institute, The Ohio State University, Columbus, OH, 43210, USA"
Journal Title:Adv Mater
Year:2022
Volume:20220224
Issue:14
Page Number:e2110085 -
DOI: 10.1002/adma.202110085
ISSN/ISBN:1521-4095 (Electronic) 0935-9648 (Linking)
Abstract:"Biomimetic artificial surfaces that enable the manipulation of gas bubble mobility have been explored in a wide range of applications in nanomaterial synthesis, surface defouling, biomedical diagnostics, and therapeutics. Although many superhydrophobic surfaces and isotropic-lubricant-infused porous surfaces have been developed to manipulate gas bubbles, the simultaneous control over the adhesion and transport of gas bubbles underwater remains a challenge. Thermotropic liquid crystals (LCs), a class of structured fluids, provide an opportunity to tune the behavior of gas bubbles through LC mesophase transitions using a variety of external stimuli. Using this central idea, the design and synthesis of LC-infused porous surfaces (LCIPS) is reported and the effects of the LC mesophase on the transport and adhesion of gas bubbles on LCIPS immersed in water elucidated. LCIPS are demonstrated to be a promising class of surfaces with an unprecedented level of responsiveness and functionality, which enables the design of cyanobacteria-inspired object movement, smart catalysts, and bubble gating devices to sense and sort volatile organic compounds and control oxygen levels in biomimetic cell cultures"
Keywords:*Liquid Crystals/chemistry Physical Phenomena Porosity Surface Properties Water/chemistry gas-bubble adhesion gas-bubble transport liquid crystals lubricated surfaces stimuli responsive materials;Neuroscience;
Notes:"MedlineRather, Adil Majeed Xu, Yang Chang, Yun Dupont, Robert Lewis Borbora, Angana Kara, Ufuoma Israel Fang, Jen-Chun Mamtani, Rajdeep Zhang, Meng Yao, Yuxing Adera, Solomon Bao, Xiaoping Manna, Uttam Wang, Xiaoguang eng Machine Shop in Department of Chemical and Biomolecular Engineering at The Ohio State University (OSU)/ OSU Institute for Materials Research Kickstart Facility/ Davidson School of Chemical Engineering, and the College of Engineering at Purdue University./ P30CA023168/Purdue University Center for Cancer Research/ Purdue Institute for Integrative Neuroscience (PIIN)/ Bindley Biosciences Center The Walther Cancer Foundation/ Germany 2022/01/29 Adv Mater. 2022 Apr; 34(14):e2110085. doi: 10.1002/adma.202110085. Epub 2022 Feb 24"

 
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