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Click Reaction Functionalization of Hydroxylated Nanoparticles by Cyclic Azasilanes for Colloidal Stability in Oilfield Applications
Click Reaction Functionalization of Hydroxylated Nanoparticles by Cyclic Azasilanes for Colloidal Stability in Oilfield Applications
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The growing interest in functionalized nanoparticles and their implementa</span></span><span><span><span style="font-family:"">tion in oilfield applications (e.g., drilling fluids and enhanced oil recovery</span></span></span><span><span><span style="font-family:""> (EOR)) facilitate the ongoing efforts to improve their chemical functionalization performance in stabilization of water based or hydrocarbon based nanofluids. Cyclic azasilanes (CAS), substituted 1-aza-2-silacyclopentanes, possess a strained 5-member ring structure. Adjacent Si and N atoms in the ring provide opportunity for highly ef</span></span></span><span style="font-family:Verdana;"></span><span><span><span style="font-family:"">ficient covalent surface functionalization of hydroxylated nanoparticles through a catalyst-free and byproduct-free click <span>reaction. In this work, hydroxylated silica, alumina, diamond, and carbon</span> coated iron core-shell nanoparticles have been studied for monolayer CAS <span>functionalization. Two cyclic azasilanes with different R groups at N atom</span>, such as methyl (CAS-1) and aminoethyl (CAS-2), have been utilized to func<span>tionalize nanoparticles. All reactions were found to readily proceed under</span> mild conditions (room temperature, ambient pressure) during 1 - 2 hours of sonication. CAS functionalized adducts of hydroxylated nanoparticles have been isolated and</span></span></span><span><span><span style="font-family:""> </span></span></span><span><span><span style="font-family:"">their microstructure, composition, solubility and thermal stability have been characterized. As a result, it has been demonstrated, for the first time, that covalent surface modification with cyclic azasilanes can be extended beyond the previously known porous silicon structures to hydroxylated silica, alumina and carbon nanoparticles. The developed methodology was also shown to provide access to the nanoparticles with the hydrophilic or hydrophobic surface functional groups needed to enable oilfield applications (e
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| 篇名 | Click Reaction Functionalization of Hydroxylated Nanoparticles by Cyclic Azasilanes for Colloidal Stability in Oilfield Applications | ||
| 来源期刊 | 纳米粒子(英文) | 学科 | 化学 |
| 关键词 | FUNCTIONALIZATION Azasilane NANOPARTICLES Colloidal Stability Oilfield Applications | ||
| 年,卷(期) | 2021,(1) | 所属期刊栏目 | |
| 研究方向 | 页码范围 | 36-49 | |
| 页数 | 14页 | 分类号 | O62 |
| 字数 | 语种 | ||
| DOI | |||
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FUNCTIONALIZATION
Azasilane
NANOPARTICLES
Colloidal
Stability
Oilfield
Applications
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纳米粒子(英文)
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美国科研出版社
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季刊
ISSN:
2169-0510
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武汉市江夏区汤逊湖北路38号光谷总部空间
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17
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