金属修饰钛酸盐纳米管和纳米线的原子尺度表征和表面化学

IF 8.2 1区 化学 Q1 CHEMISTRY, PHYSICAL
Ákos Kukovecz , Krisztián Kordás , János Kiss , Zoltán Kónya
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引用次数: 87

摘要

钛酸盐是一种聚钛酸盐,在结晶度、形貌、尺寸、金属含量和表面化学等方面都可以合成多种纳米结构。钛酸盐纳米管(长度为200nm,外径为15nm的开放式空心圆柱体)和纳米线(长度为1500nm,直径为30 - 60nm的固体细长矩形块)是钛酸盐纳米材料家族中最广泛的代表。本文从表面科学的角度综述了这两种材料的性能及其应用。首先全面讨论了介电、振动、电子和x射线光谱结果,然后涵盖了表面改性方法,包括共价功能化、离子交换和金属负载。一维钛酸盐的多种表面化学性质使其成为多相催化、光催化、光伏和储能等领域的优秀候选材料,因此,对这些领域也进行了综述。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Atomic scale characterization and surface chemistry of metal modified titanate nanotubes and nanowires

Titanates are salts of polytitanic acid that can be synthesized as nanostructures in a great variety concerning crystallinity, morphology, size, metal content and surface chemistry. Titanate nanotubes (open-ended hollow cylinders measuring up to 200 nm in length and 15 nm in outer diameter) and nanowires (solid, elongated rectangular blocks with length up to 1500 nm and 30–60 nm diameter) are the most widespread representatives of the titanate nanomaterial family. This review covers the properties and applications of these two materials from the surface science point of view. Dielectric, vibrational, electron and X-ray spectroscopic results are comprehensively discussed first, then surface modification methods including covalent functionalization, ion exchange and metal loading are covered. The versatile surface chemistry of one-dimensional titanates renders them excellent candidates for heterogeneous catalytic, photocatalytic, photovoltaic and energy storage applications, therefore, these fields are also reviewed.

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来源期刊
Surface Science Reports
Surface Science Reports 化学-物理:凝聚态物理
CiteScore
15.90
自引率
2.00%
发文量
9
审稿时长
178 days
期刊介绍: Surface Science Reports is a journal that specializes in invited review papers on experimental and theoretical studies in the physics, chemistry, and pioneering applications of surfaces, interfaces, and nanostructures. The topics covered in the journal aim to contribute to a better understanding of the fundamental phenomena that occur on surfaces and interfaces, as well as the application of this knowledge to the development of materials, processes, and devices. In this journal, the term "surfaces" encompasses all interfaces between solids, liquids, polymers, biomaterials, nanostructures, soft matter, gases, and vacuum. Additionally, the journal includes reviews of experimental techniques and methods used to characterize surfaces and surface processes, such as those based on the interactions of photons, electrons, and ions with surfaces.
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