1) single phospholipid membrane
单层磷脂膜
2) lipid monolayer
磷脂单层膜
3) lecithoid bilayer
双层磷脂膜
1.
This paper reviewed the application advances of molecule self-assembled monolayer,multilayer and lecithoid bilayer in electroanalytical chemistry and biosensors.
本文介绍了分子自组单层膜、多层膜和双层磷脂膜在电分析化学和生物传感器方面的研究应用进展。
4) Bilayer lipid membranes
磷脂双层膜
1.
Electrochemicalmethods have been used to study different model biomembrane systems, such assupported bilayer lipid membranes (s-BLM), dodecanethiol Momolayer (DDM).
采用电化学方法对支撑磷脂双层膜(s-BLM)、十二烷基硫醇单层膜(DDM)的模拟生物膜体系进行了研究。
5) monolayer lipid membrane
单层类脂膜
1.
s:Bolaform amphiphiles can form monolayer lipid membrane(MLM) and monolayer lipid membrane vesicle(MLM vesicle)in water.
Bola型两亲化合物分子因具有中部是疏水基 ,两端为亲水基团的特殊结构 ,可在水中聚集形成单层类脂膜(ML M)和单分子层囊泡 (ML M囊泡 )。
6) phospholipid monolayer
磷脂单分子膜
1.
Based on the available surface state equation for phospholipid monolayers, a generalized equa-tion was derived by introducing a third parameter—comparative expanding factor.
从现有的磷脂单分子膜状态方程入手,以磷脂临界相变面积(Ac)和相变温度(Tc)为参比,引入对比面积(Ar),对比温度(Tr),并通过分析磷脂分子间作用力和底液分子与磷脂分子间作用力的影响,提出了第三参数——相对铺展因子的概念,导出了磷脂单分子膜普适状态方程。
2.
After the effect of different phospholipid molecules on the formation of phase transition area was taken into account, the modified state equation for the phospholipid monolayer was derived.
结果表明,该模型能较好地描述磷脂单分子膜在整个呼吸压缩舒张过程中的表面特性,特别是在相变区域,模型值与实验值也能吻合良好。
补充资料:单幕
1.单层的帷幕。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条