等离子体聚合作为聚合材料的生成方法得到广泛应用。
As a method to make polymer materials, plasma polymerization has been used widely.
单体流量是影响等离子体聚合沉积过程的重要宏观参数之一。
Monomer flow rate has been referred as a key parameter in the preparation of plasma polymer films.
探讨了等离子体聚合条件对聚合物结构的影响及其聚合反应机理。
The effect of condition of plasma polymerization on the structure of polymer has been examined. The reaction mechanism of plasma polymerization of ethylene is also discussed.
探讨了正丁胺等离子体聚合膜的形成机理和传感器主要检测条件的影响;
The mechanism of the formation of PPF and the effects of the main experimental conditions are discussed respectively.
简述了等离子体聚合的特征,等离子体聚合反应参数和聚合反应机理,介绍了等离子体聚合的研究进展。
The reaction characteristics, parameters and mechanism of plasma polymerization were reviewed. The present study situation of plasma polymerization was introduced.
运用等离子体技术改变高分子材料的表面性质的方法主要有三类:等离子体处理、等离子体聚合和等离子体接枝聚合。
There are three ways using plasma technology to modify the surface properties of polymer materials, which are plasma surface treatment, plasma polymerization and plasma graft copolymerization.
本论文的主要工作是基于等离子体聚合膜的优良性质,构建电位型的乙酰胆碱酯酶生物传感器和电流型的过氧化氢生物传感器。
In this paper, a potentiometric acetylcholinesterase biosensor and two kinds of ampermetric hydrogen peroxide biosensors have been developed based on plasma polymerized film.
本文对比了用氩等离子体和氧等离子体预刻蚀电极的情况,认为在电极表面是否有含氧基团存在对氩等离子体聚合制备修饰电极影响不大。
The effects of etching electrode with argon and oxygen plasmas in advance on the preparation of argon plasma polymerized vinylferrocene film electrode were compared.
与化学掺杂相比较,等离子体掺杂具有很高的掺杂速率,并可提高导电聚合物的稳定性。
Compared with a chemical doping, the plasma doping displays much higher doping speed and can improve the stability of conductive polymers.
本文还对等离子体显影、阳极化、聚合及PCVD等作了简要讨论。
The plasma development, anodization, polymerization and PCVD are discussed briefly.
采用低温等离子体辉光放电技术,用含氟有机单体在硅太阳电池表面聚合成膜。
This paper describes the polymerization of monomer containing fluorine by the low-temperature plasma glow discharge to produce the antireflective films which deposited on textured solar cells.
实验中采用界面聚合法制备聚酰胺多孔微囊,然后利用等离子体接枝填孔聚合法将PNIPAM接枝在微囊壁的膜孔中。
Interfacial polymerization was introduced to prepare polyamide porous microcapsules, and plasma-graft pore-filling polymerization was used to graft PNIPAM into the pore of the microcapsule membranes.
介绍了化学、等离子体、辐射和光化学等应用于聚合物分离膜领域的接枝技术的主要特点。
The grafting techniques applied in polymer membrane such as chemical, plasma, radiation and photochemical methods were introduced.
通过对“初始”薄层结构和等离子体条件的选择,在不同聚合物表面可形成多种纳米结构。
By choosing thin initial layers and variable plasma conditions, a broad range of nanostructures can be obtained on various polymers.
目的:利用低温等离子体轰击法建立高分子聚合体表面润湿性研究模型。
AIM: To establish a model of polymer surface wettability by oxygen plasma treatment.
目的:利用低温等离子体轰击法建立高分子聚合体表面润湿性研究模型。
AIM: To establish a model of polymer surface wettability by oxygen plasma treatment.
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