MXenes和硼罗芬纳米材料的高效、卓越的传感器活性和储能性能

IF 9.1 2区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR Progress in Solid State Chemistry Pub Date : 2023-06-01 DOI:10.1016/j.progsolidstchem.2023.100392
Chuan Li , Ayesha Khan Tareen , Karim Khan , JianYu Long , Iftikhar Hussain , Muhammad Farooq Khan , Muhammad Iqbal , Zhongjian Xie , Ye Zhang , Asif Mahmood , Nasir Mahmood , Waqas Ahmad , Han Zhang
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引用次数: 4

摘要

传感器被认为是未来先进文明可持续发展的基本载体。为了满足未来几代人的需求,与人工智能(AI)、第五代(5G)连接、机器学习(ML)和物联网(iot)相结合的先进传感器系统的制造正在快速增长。将二维(2D)纳米材料(NMs)与物联网/5G/人工智能/机器学习技术相结合,已经改变了医疗保健、可穿戴电子产品、安全、环境、军事、太空和农业领域的广泛传感器应用。最后,为了操作这些传感器,我们需要强大的能量存储设备(ESDs),从而推进二维NMs。自2011年发现MXenes纳米片和2015年在Ag衬底上发现2D硼纳米片(NSs)(硼苯)以来,它们在先进纳米技术领域的研究得到了加速。Borophene和MXenes纳米材料由于其新颖的物理化学性质和表面功能而成为构建下一代新型传感器和esd的优秀二维纳米材料。通过降低成本,需要更少的资源(包括劳动力),并最大限度地减少污染,基于ML/AI的理论模拟有效地指导了大规模工业水平上改进的基于二维NMs的传感器/ esd应用的研究和制造。现代基于二维纳米材料的柔性传感器和esd具有适应性强、可穿戴、智能、便携、生物相容性强、节能、自我维持、即时护理、价格合理等特点,可以从根本上改变传统的传感/ esd技术。本文综述了MXenes和硼罗芬纳米材料的合成及其相关成果,以及传感器/ esd技术应用的进展、局限性和挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Highly efficient, remarkable sensor activity and energy storage properties of MXenes and borophene nanomaterials

Sensors are regarded as a fundamental vector for sustainable development of future advanced civilization. To satisfy the demands of future generations, fabrication of advanced sensor systems integrated with artificial intelligence (AI), fifth generation (5G) connectivity, machine learning (ML), and internet of things (IoTs) is growing very fast. Incorporation of two-dimensional (2D) nanomaterials (NMs) with IoTs/5G/AI/ML technologies has transformed wide range of sensor applications in healthcare, wearable electronics for, safety, environment, military, space, and agriculture sectors. Finally, to operate those sensors we need powerful energy storage devices (ESDs) and hence advance 2D NMs. Since the discovery of MXenes NMs in 2011, and 2D boron nanosheets (NSs) (borophene) on Ag substrates (2015) their research has been accelerated in the domains of advanced nanotechnological world. Borophene and MXenes NMs have came out as an outstanding 2D NMs to construct next generation novel sensors and ESDs due to their novel physicochemical properties and surface functions. By lowering costs, requiring fewer resources (including labor), and minimizing contamination, ML/AI based theoretical simulation has effectively directed the study and manufacturing of improved 2D NMs based sensors/ESDs applications on large scale industrial level. Modern 2D NMs based flexible sensors and ESDs can fundamentally alter the traditional sensing/ESDs technologies since they are adaptable, wearable, intelligent, portable, biocompatible, energy-efficient, self-sustaining, point-of-care, affordable etc. this review summarized the MXenes and borophene NMs synthesis with corresponding achievements, and there advancement, limitations, and challenges in sensors/ESDs technological applications.

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来源期刊
Progress in Solid State Chemistry
Progress in Solid State Chemistry 化学-无机化学与核化学
CiteScore
14.10
自引率
3.30%
发文量
12
期刊介绍: Progress in Solid State Chemistry offers critical reviews and specialized articles written by leading experts in the field, providing a comprehensive view of solid-state chemistry. It addresses the challenge of dispersed literature by offering up-to-date assessments of research progress and recent developments. Emphasis is placed on the relationship between physical properties and structural chemistry, particularly imperfections like vacancies and dislocations. The reviews published in Progress in Solid State Chemistry emphasize critical evaluation of the field, along with indications of current problems and future directions. Papers are not intended to be bibliographic in nature but rather to inform a broad range of readers in an inherently multidisciplinary field by providing expert treatises oriented both towards specialists in different areas of the solid state and towards nonspecialists. The authorship is international, and the subject matter will be of interest to chemists, materials scientists, physicists, metallurgists, crystallographers, ceramists, and engineers interested in the solid state.
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