纳米颗粒金能提高视黄醛仿生膜的光电响应电流和寿命。
Photoelectric current and lifetime of vision mimetic retinal membrane has also been much improved...
纳米颗粒金能提高视黄醛仿生膜的光电响应电流和寿命。
Photoelectric current and lifetime of vision mimetic retinal membrane has also been much improved by addition of nanometer…
利用计时电流法对不同光照时间纳米银颗粒组装的酶电极响应电流进行了表征。
The response current of the enzyme electrode containing AgNPs photo-induced at different time was characterized by chronoamperometry.
本文的思路是利用纳米颗粒材料的多种独特效应来提高葡萄糖传感器的响应电流。
In the present thesis, we make use of the unique effects of nanoparticle materials to enhance the current response of biosensor.
实验表明,纳米颗粒可以使电极的响应电流从相应浓度的几十纳安增强到几千纳安。
The experiments show that the current response is increased from tens of nanoamperometer(nA)to thousands of nanoamperometer to the same glucose concentration.
实验表明,纳米颗粒可以使电极的响应电流从相应浓度的几十纳安增强到几千纳安。
The experiments show that the current response is increased from tens of nanoamperometer(nA)to thousands of nanoamperometer to the same glucose concentration.
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