Transportation of Nano/Microparticles via Photoinduced Crawling of Azobenzene Crystals
暂无分享,去创建一个
[1] K. Miyake,et al. Photo-Induced Crawling Motion of Azobenzene Crystals on Modified Gold Surfaces. , 2021, Langmuir : the ACS journal of surfaces and colloids.
[2] K. Abe,et al. Effect of Surface Properties on the Photo-Induced Crawling Motion of Azobenzene Crystals on Glass Surfaces , 2021, Frontiers in Chemistry.
[3] Yunlong Jiao,et al. Bioinspired Geometry-Gradient Metal Slippery Surface by One-Step Laser Ablation for Continuous Liquid Directional Self-Transport. , 2021, Langmuir : the ACS journal of surfaces and colloids.
[4] B. Nelson,et al. Trends in Micro‐/Nanorobotics: Materials Development, Actuation, Localization, and System Integration for Biomedical Applications , 2020, Advanced materials.
[5] Haifeng Yu,et al. Flexible Solar Thermal Fuel Devices: Composites of Fabric and a Photoliquefiable Azobenzene Derivative , 2019, Advanced Energy Materials.
[6] Xu Deng,et al. Surface charge printing for programmed droplet transport , 2019, Nature Materials.
[7] R. Azumi,et al. Light-induced mechanical response in crosslinked liquid-crystalline polymers with photoswitchable glass transition temperatures , 2018, Nature Communications.
[8] H. Sekiguchi,et al. Nanoscale Dynamics of Protein Assembly Networks in Supersaturated Solutions , 2017, Scientific Reports.
[9] H. Kihara,et al. Reworkable adhesives composed of photoresponsive azobenzene polymer for glass substrates , 2017 .
[10] H. Butt,et al. Photoswitching of glass transition temperatures of azobenzene-containing polymers induces reversible solid-to-liquid transitions. , 2017, Nature chemistry.
[11] Y. Norikane,et al. Photoinduced Phase Transitions in Rod-shaped Azobenzene with Different Alkyl Chain Length , 2016 .
[12] Y. Matsushita,et al. Time-resolved X-ray Tracking of Expansion and Compression Dynamics in Supersaturating Ion-Networks , 2015, Scientific Reports.
[13] F. Grepioni,et al. Photoinduced reversible switching of porosity in molecular crystals based on star-shaped azobenzene tetramers. , 2015, Nature chemistry.
[14] R. Azumi,et al. Light-induced crawling of crystals on a glass surface , 2015, Nature Communications.
[15] Teppei Yamada,et al. Photoliquefiable ionic crystals: a phase crossover approach for photon energy storage materials with functional multiplicity. , 2015, Angewandte Chemie.
[16] S. Kanazawa,et al. Photochemical Liquid–Solid Transitions in Multi-dye Compounds , 2014 .
[17] M. Okada,et al. Real Time Ligand-Induced Motion Mappings of AChBP and nAChR Using X-ray Single Molecule Tracking , 2014, Scientific Reports.
[18] H. Kihara,et al. Photoinduced crystal-to-liquid phase transitions of azobenzene derivatives and their application in photolithography processes through a solid-liquid patterning. , 2014, Organic letters.
[19] H. Kihara,et al. Organic Photofunctional Materials Composed of Azobenzene Derivatives: Liquid-solid Phase Transition in Multi Azobenzene Compounds with Partially Substituted Structures , 2014 .
[20] S. Adachi,et al. Crystal melting by light: X-ray crystal structure analysis of an azo crystal showing photoinduced crystal-melt transition. , 2014, Journal of the American Chemical Society.
[21] S. Kanazawa,et al. Photochemically reversible liquefaction and solidification of multiazobenzene sugar-alcohol derivatives and application to reworkable adhesives. , 2014, ACS applied materials & interfaces.
[22] Yumiko Nakamura,et al. Control of the orientation and photoinduced phase transitions of macrocyclic azobenzene. , 2013, Chemistry.
[23] Masaru Yoshida,et al. Photochemically Reversible Liquefaction and Solidification of Single Compounds Based on a Sugar Alcohol Scaffold with Multi Azo‐Arms , 2012, Advanced materials.
[24] Hirofumi Shimizu,et al. Global Twisting Motion of Single Molecular KcsA Potassium Channel upon Gating , 2008, Cell.
[25] George M. Whitesides,et al. How to Make Water Run Uphill , 1992, Science.