CONSPECTUS:Studying the formation and interactions between biological systems and artificial materials is significant for probing complex biophysical behaviors and addressing challenging biomedical problems.Bioelectri...CONSPECTUS:Studying the formation and interactions between biological systems and artificial materials is significant for probing complex biophysical behaviors and addressing challenging biomedical problems.Bioelectrical interfaces,especially nanostructure-based,have improved compatibility with cells and tissues and enabled new approaches to biological modulation.In particular,free-standing and remotely activated bioelectrical devices demonstrate potential for precise biophysical investigation and efficient clinical therapies.Interacting with single cells or organelles requires devices of sufficiently small size for high resolution probing.Nanoscale semiconductors,given their diverse functionalities,are promising device platforms for subcellular modulation.展开更多
基金This work was supported by the US Office of Naval Research(N000141612958)Air Force Office of Scientific Research(FA9550-20-1-0387)+2 种基金the National Science Foundation(NSF CMMI-1848613,NSF DMR-2011854)A.Prominski acknowledges support from the NSF MRSEC Graduate Fellowship(NSF DMR-2011854)B.A.M.acknowledges support from the Stamps Scholars Program.
文摘CONSPECTUS:Studying the formation and interactions between biological systems and artificial materials is significant for probing complex biophysical behaviors and addressing challenging biomedical problems.Bioelectrical interfaces,especially nanostructure-based,have improved compatibility with cells and tissues and enabled new approaches to biological modulation.In particular,free-standing and remotely activated bioelectrical devices demonstrate potential for precise biophysical investigation and efficient clinical therapies.Interacting with single cells or organelles requires devices of sufficiently small size for high resolution probing.Nanoscale semiconductors,given their diverse functionalities,are promising device platforms for subcellular modulation.
