硼吩的崛起

IF 33.6 1区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Progress in Materials Science Pub Date : 2024-06-25 DOI:10.1016/j.pmatsci.2024.101331
Prashant Kumar , Gurwinder Singh , Rohan Bahadur , Zhixuan Li , Xiangwei Zhang , C.I. Sathish , Mercy R. Benzigar , Thi Kim Anh Tran , Nisha T. Padmanabhan , Sithara Radhakrishnan , Jith C Janardhanan , Christy Ann Biji , Ann Jini Mathews , Honey John , Ehsan Tavakkoli , Ramaswamy Murugavel , Soumyabrata Roy , Pulickel M. Ajayan , Ajayan Vinu
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引用次数: 0

摘要

硼铼在烯类材料中独树一帜,具有金属特性、狄拉克性质、优异的电子迁移率、热导率和杨氏模量,超越了石墨烯。2015 年发明的原子层沉积、分子束外延和化学气相沉积等多种方法已成功实现了基底支持的晶体生长。此外,还采用了自上而下的方法,如微机械、声化学、溶热和改良哈默技术。由于具有高电子迁移率,硼吩可作为一种活性材料用于光、气体、分子和应变的超快传感。它的金属特性、电化学活性和抗腐蚀性使其成为能量储存和催化应用的理想材料。事实证明,硼吩是一种有效的电催化剂,可用于 HER、OER、水分离、二氧化碳还原和 NH3 还原反应。除此以外,硼吩在生物成像、生物传感和各种生物医学应用中也有实用价值。本研究将特别强调硼吩纳米结构,即掺杂硼吩和基于硼吩与其他二维材料和纳米粒子的混合物,以及对这些新兴材料系统的理论理解,以获得对其电子结构和性能的更多见解,从而操纵硼吩以实现量身定制的应用。
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The rise of borophene

Borophene stands out uniquely among Xenes with its metallic character, Dirac nature, exceptional electron mobility, thermal conductivity, and Young’s moduli—surpassing graphene. Invented in 2015, various methods, including atomic layer deposition, molecular beam epitaxy, and chemical vapor deposition, have successfully been demonstrated to realize substrate-supported crystal growth. Top-down approaches like micromechanical, sonochemical, solvothermal and modified hummer’s techniques have also been employed. Thanks to its high electronic mobility, borophene serves as an active material for ultrafast sensing of light, gases, molecules, and strain. Its metallic behaviour, electrochemical activity, and anti-corrosive nature make it ideal for applications in energy storage and catalysis. It has been proven effective as an electrocatalyst for HER, OER, water splitting, CO2 reduction, and NH3 reduction reactions. Beyond this, borophene has found utility in bioimaging, biosensing, and various biomedical applications. A special emphasis will be given on the borophene nanoarchitectonics i.e. doped borophene and borophene-based hybrids with other 2D materials and nanoparticles and the theoretical understanding of these emerging materials systems to gain more insights on their electronic structure and properties, aiming to manipulate borophene for tailored applications.

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来源期刊
Progress in Materials Science
Progress in Materials Science 工程技术-材料科学:综合
CiteScore
59.60
自引率
0.80%
发文量
101
审稿时长
11.4 months
期刊介绍: Progress in Materials Science is a journal that publishes authoritative and critical reviews of recent advances in the science of materials. The focus of the journal is on the fundamental aspects of materials science, particularly those concerning microstructure and nanostructure and their relationship to properties. Emphasis is also placed on the thermodynamics, kinetics, mechanisms, and modeling of processes within materials, as well as the understanding of material properties in engineering and other applications. The journal welcomes reviews from authors who are active leaders in the field of materials science and have a strong scientific track record. Materials of interest include metallic, ceramic, polymeric, biological, medical, and composite materials in all forms. Manuscripts submitted to Progress in Materials Science are generally longer than those found in other research journals. While the focus is on invited reviews, interested authors may submit a proposal for consideration. Non-invited manuscripts are required to be preceded by the submission of a proposal. Authors publishing in Progress in Materials Science have the option to publish their research via subscription or open access. Open access publication requires the author or research funder to meet a publication fee (APC). Abstracting and indexing services for Progress in Materials Science include Current Contents, Science Citation Index Expanded, Materials Science Citation Index, Chemical Abstracts, Engineering Index, INSPEC, and Scopus.
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