Results 211 to 220 of about 416,782 (338)

Scanned Probe Microscopy of Electronic Transport in Carbon Nanotubes [PDF]

, 2000
Adrian Bachtold, Michael S. Fuhrer, Sergei Plyasunov, Manu Forero-Shelton, Erik H. Anderson, Alex Zettl, Paul L. McEuen   +6 more
openalex   +1 more source

Kirigami‐Inspired Breathable Smart Contact Lens for Wireless Monitoring of Corneal Hypoxia and Microenvironment

Advanced Healthcare Materials, EarlyView.
A kirigami‐inspired breathable smart contact lens is reported for wireless monitoring of corneal hypoxia and microenvironment. The ultrathin (55 µm) and flexible sensing device enables digitalized, in situ and precise monitoring of dissolved oxygen, humidity, and temperature (R2 >0.98).
Jiaxue Zhu, Ling Yang, Qing Yang, Yin Huang, Yuhang Li, Yueqing He, Xuxu Yang, Zhiyan Yang, Yonghong Jiao, Wenbin Wei, Yihao Chen, Xue Feng   +11 more
wiley   +1 more source

Deposition of aligned bamboo-like carbon nanotubes via microwave plasma enhanced chemical vapor deposition

, 2000
H. Cui, Otto Zhou, Brian R. Stoner
openalex   +3 more sources

Selective Deposition of UCl4and (KCl) (UCl4) inside Carbon Nanotubes Using Eutectic and Noneutectic Mixtures of UCl4with KCl

, 1999
Jeremy Sloan, Janice K. Cook, A. K. P. Chu, M. Zweifka-Sibley, M.L.H. Green, J. L. Hutchison   +5 more
openalex   +1 more source

One-dimensional CrI₃ encapsulated within multi-walled carbon nanotubes. [PDF]

Commun Chem
Çaha I, Ahmad AU, Boddapatti L, Bañobre-López M, Costa AT, Enyashin AN, Li W, Gargiani P, Valvidares M, Fernández-Rossier J, Deepak FL.   +10 more
europepmc   +1 more source

Controlled Magnesium Ion Delivery via Mg‐Sputtered Nerve Conduit for Enhancing Peripheral Nerve Regeneration

Advanced Healthcare Materials, EarlyView.
This study introduces a controllable degradation system for Mg‐based biomaterials using sputtering technology, marking a significant advancement in nerve regeneration research. The Mg‐sputtered nerve conduits demonstrate enhanced biocompatibility, biofunctionality, mechanical compatibility, and precise magnesium release, resulting in improved axonal ...
Hyewon Kim, Jieun Kwon, Hyeok Kim, Sunhee Lee, Seongchan Kim, Ji‐Young Lee, Khandoker Asiqur Rahaman, Taeyeon Kim, Hyojin Lee, Myoung‐Ryul Ok, Seok Chung, Hyung‐Seop Han, Yu‐Chan Kim   +12 more
wiley   +1 more source

Nanotube. Preparation and Electron Emission Properties of Carbon Nanotubes.

, 1999
Yahachi Saito
openalex   +2 more sources

Quantized Phonon Spectrum of Single-Wall Carbon Nanotubes [PDF]

, 2000
James Hone, B. Batlogg, Z. Benes, A. T. Charlie Johnson, J. E. Fischer   +4 more
openalex   +1 more source

Doping Carbon Nanotube Ethylene-Vinyl Acetate Thin Films for Touch-Sensitive Applications. [PDF]

ACS Appl Electron Mater
Sturdza BK, Jacobus N, Bennett A, Form J, Wood L, Christoforo MG, Riede MK, Nicholas RJ.   +7 more
europepmc   +1 more source

Nanomaterial‐Enhanced Biosensing: Mechanisms and Emerging Applications

Advanced Healthcare Materials, EarlyView.
Nanomaterial integration transforms biosensor capabilities through enhanced signal transduction, sensitivity, and selectivity. This review analyzes how nanoscale materials—from nanoparticles to nanosheets—leverage unique physicochemical properties to revolutionize electrochemical, optical, and electrical biosensing.
Younghak Cho, Yunyoung Choi, Yerim Jang, Hyejeong Seong   +3 more
wiley   +1 more source