Nanoporous materials for energy related and sensing applications

A. Vinu
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Abstract

Nanoporous non-siliceous materials such as carbons, nitrides, and phosphides have attracted much attention in the recent years due to their enormous applications in the fields of adsorption, catalysis, and fuel cells. However, the incorporation of hetero atoms such as boron and nitrogen in the non-siliceous materials can significantly change their electronic and semi-conducting properties. Firstly I will present some results about the discovery of the nanoporous carbon and nitride materials, and the basics and the mechanism behind the synthesis of various nanoporous nitride materials with different pore structure and textural parameters. Then, the preparation, characterization and the applications of one and three dimensional nanoporous carbon nitrides materials synthesized using various inorganic templates with the different pore structures (MCN-11,2 and MCN-23) through a simple polymerization reaction between ethylenediamine (EDA) and carbon tetrachloride (CTC) will be presented. Moreover, the methods to control the textural parameters and the nitrogen content of the nanoporous carbon nitride materials, which have been solely developed in my group, will also be discussed.4 Not only the powder materials but also the different ways for the fabrication of nanoporous carbon nitride nanoparticles and films with hierarchical ordered structure and morphology will be demonstrated. In addition, I will show some of the results on the preparation of nanoporous boron nitride (MBN) and boron carbon nitride (MBCN) which have been prepared by novel elemental substitution technique5 using nanoporous carbon as the template at very high temperature. In the last part of the talk, I briefly discuss about the different ways of preparing nanoporous carbon materials with various structure types, especially “Carbon Nanocage and Carbon Nanocoops”, and to tune the pore diameters and textural parameters. The applications of the materials including sensing of different molecules and biosensing will be discussed in detail.6−12
用于能源相关和传感应用的纳米多孔材料
近年来,碳、氮化物、磷化物等纳米多孔非硅材料在吸附、催化和燃料电池等领域的广泛应用引起了人们的广泛关注。然而,在非硅质材料中掺入硼和氮等杂原子会显著改变其电子和半导体性能。首先,我将介绍一些关于纳米多孔碳氮材料的发现,以及各种具有不同孔隙结构和结构参数的纳米多孔氮材料的合成基础和机理。然后介绍了以不同孔结构的无机模板(MCN-11、2和MCN-23)为原料,通过乙二胺(EDA)和四氯化碳(CTC)的简单聚合反应合成一维和三维纳米多孔氮化碳材料的制备、表征和应用。此外,还将讨论我课题组单独开发的纳米多孔氮化碳材料的结构参数和含氮量的控制方法不仅介绍了粉末材料,还介绍了制备纳米多孔氮化碳纳米颗粒和具有分层有序结构和形态的薄膜的不同方法。此外,我将展示一些用新型元素取代技术在高温下以纳米多孔碳为模板制备纳米多孔氮化硼(MBN)和氮化硼碳(MBCN)的结果。在讲座的最后部分,我简要讨论了不同结构类型的纳米多孔碳材料的不同制备方法,特别是“碳纳米笼和碳纳米笼”,以及孔径和结构参数的调整。将详细讨论材料的应用,包括不同分子的传感和生物传感。6−12
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