微电极
化学
纳米孔
体内
生物相容性
生物污染
膜
安培法
电极
纳米技术
生物物理学
电化学
材料科学
生物化学
生物
物理化学
生物技术
有机化学
作者
Lin Zhou,Hanfeng Hou,Huan Wei,Lina Yao,Lei Sun,Ping Yu,Bin Su,Lanqun Mao
标识
DOI:10.1021/acs.analchem.8b05658
摘要
Oxygen (O2) is involved in many life activities, and its in vivo monitoring is of vital importance. In vivo electrochemistry with carbon fiber microelectrode (CFME) has been proven to be a suitable technique, but the surface fouling propensity poses a great challenge to its current stability and reliability. Herein we electro-grafted silica nanoporous membrane (SNM) consisting of uniform, closely packed, and vertically aligned nanochannels on the CFME surface, which was capable of protecting the surface effectively from biofouling and, meanwhile, preserving the permeability to O2. In comparison with a bare CFME, the SNM/CFME after implantation in the brain of a live rat maintained its analytical sensitivity to O2. Moreover, the implanted electrode could monitor O2 continuously under the in vivo condition, exhibiting an excellent current stability, as well as a fast response, up to 2 h. Further considering the high permeability, selectivity, and biocompatibility of SNM, we believe the modified CFME is a highly reliable sensor for long-term in vivo monitoring of O2, as well as other neurochemicals, with promise in physiological, ethological, and neurological studies.
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