Conductivity Preparation by Choline Lactate Ethanol Solution for SEM Ob servation: Both Hard and Soft Tissues in Living Matter

Q4 Engineering Nano Biomedicine Pub Date : 2012-01-01 DOI:10.11344/NANO.4.18
S. Abe, A. Hyono, Yuri Machida, F. Watari, T. Yonezawa
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引用次数: 2

Abstract

18 Introduction Choline, a well-known neurotransmitter, consists of a tetraammonium cation that has three methyl groups symmetrically and a hydroxyethy group, and some anion molecules (shown in Scheme 1). Some of the organic salts, such as choline lactate, have specific physical properties such as noncombustibility, extremely low vapor pressure, high heat resistance, and high ionic conductivity. Choline lactate also has a unique property, i.e., it is liquid at room temperature, a so-called room temperature ionic liquid (RTIL). Because of these properties, RTILs have attracted much attention for application in many fields [1-4]. Recently, Kuwabata et al. applied an imidazolium-type RTIL for pre-treatment of a scanning electron microscope (SEM) observation because the ionic liquid has some suitable properties for the treatment described above. They observed SEM images of biological specimens such as insect, flower, tissue, pollen, and cell using several IL aqueous solutions [5]. To estimate the usefulness of the pretreatment, we applied imidazolium-type ILs for nanocarbon materials such as fullerene nanocrystals and carbon nanotubes. The highest resolution observed was <30 nm [6]. For improvement the affinity of ILs to biological materials, we designed novel choline-type ILs and applied for SEM observation Conductivity Preparation by Choline Lactate Ethanol Solution for SEM Observation: Both Hard and Soft Tissues in Living Matter
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乳酸胆碱乙醇溶液制备电导率的扫描电镜观察:活体硬组织和软组织
胆碱是一种著名的神经递质,由具有三个对称甲基和一个羟基的四铵阳离子和一些阴离子分子组成(如图1所示)。一些有机盐,如乳酸胆碱,具有特殊的物理性质,如不燃性、极低蒸气压、高耐热性和高离子导电性。乳酸胆碱还有一个独特的性质,即在室温下呈液态,即所谓的室温离子液体(RTIL)。由于这些特性,RTILs在许多领域得到了广泛的应用[1-4]。最近,Kuwabata等人使用咪唑型RTIL进行扫描电镜(SEM)观察的预处理,因为离子液体具有一些适合上述处理的特性。他们用几种IL水溶液[5]观察了昆虫、花、组织、花粉和细胞等生物标本的SEM图像。为了评估预处理的有效性,我们将咪唑类il应用于纳米碳材料,如富勒烯纳米晶体和碳纳米管。观察到的最高分辨率<30 nm[6]。为了提高胆碱型il对生物材料的亲和力,我们设计了新型胆碱型il,并将其应用于扫描电镜观察
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Nano Biomedicine
Nano Biomedicine Engineering-Biomedical Engineering
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0.30
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