Advanced strategies for the synthesis and modulation of 2D layered heterostructures for energy conversion and storage applications

IF 33.6 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Progress in Materials Science Pub Date : 2024-06-10 DOI:10.1016/j.pmatsci.2024.101325

Waseem Raza , Attia Shaheen , Noureen Amir Khan , Ki Hyun Kim , Xingke Cai

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Abstract

Two-dimensional heterostructures (2D HSs) are popular candidates for sustainable energy conversion and storage applications through the synergetic combination of nanosized heterojunctions with intriguing functionalities. The properties of 2D heterointerfaces can be well-regulated for scaled-up applications through synthetic tuning and/or engineering design. In this perspective, the synthesis protocols of 2D heterostructure are first discussed, along with associated modulation strategies to better describe the required functionalities for scaled-up applications. Computational insights are also provided to regulate and predict the heterointerface of the outlined structures based on various models (e.g., atomic, micro, and mesoscale simulations). The role of modulated 2D heterostructures is highlighted with respect to the energy applications along with the current challenges for 2D heterostructure development. This review is anticipated to deliver new paths for the design and construction of 2D heterostructures toward the practical applications in multiple fields with a focus on energy conversion and storage.

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合成和调制二维层状异质结构用于能量转换和存储应用的先进策略

二维异质结构（2D HSs）是可持续能源转换和存储应用的热门候选材料，它将纳米级异质结与引人入胜的功能性协同结合在一起。二维异质界面的特性可通过合成调整和/或工程设计进行良好调节，以扩大应用规模。从这个角度出发，首先讨论了二维异质结构的合成方案以及相关的调制策略，以便更好地描述放大应用所需的功能。此外，还提供了基于各种模型（如原子、微观和中尺度模拟）的计算见解，以调节和预测所概述结构的异质界面。重点介绍了调制二维异质结构在能源应用方面的作用，以及当前二维异质结构发展所面临的挑战。预计本综述将为二维异质结构的设计和构建提供新的途径，使其在以能量转换和存储为重点的多个领域得到实际应用。

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来源期刊

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.