Contents
2024
Volume: 39 Issue 2
13 Article(s)

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Chemical Scissor-mediated Structural Editing of Inorganic Materials
Haoming DING, Ke CHEN, Mian LI, Youbing LI..., Zhifang CHAI and Qing HUANG|Show fewer author(s)
Inspired by gene scissor concept in biological genetic engineering, chemical scissors, as important research tools, play an important role in the study of structure editing and application of materials. We aim to review the research progress of chemical scissors in structural editing and applications of materials. Firs
Journal of Inorganic Materials
  • Publication Date: Dec. 19, 2023
  • Vol. 39, Issue 2, 115 (2023)
Terahertz Electromagnetic Shielding and Absorbing of MXenes and Their Composites
Hujie WAN, and Xu XIAO
Developing novel low-dimensional materials for terahertz electromagnetic shielding and absorbing applications represents a critical research frontier. Their unique electrical, mechanical, and electromagnetic responses hold great potential in enabling more efficient solutions for electromagnetic shielding and absorbing.
Journal of Inorganic Materials
  • Publication Date: Dec. 25, 2023
  • Vol. 39, Issue 2, 129 (2023)
Metal Matrix Composites Reinforced by MAX Phase Ceramics: Fabrication, Properties and Bioinspired Designs
Yanyan LIU, Xi XIE, Zengqian LIU, and Zhefeng ZHANG
MAX phase ceramics, with their mixed covalent-metallic-ionic atomic bonds, can uniquely combine the advantages of both metals and ceramics, offering a series of distinctive characteristics. The particular layered atomic structure further endows them with decent fracture toughness, good damping capacity, and self-lubric
Journal of Inorganic Materials
  • Publication Date: Nov. 10, 2023
  • Vol. 39, Issue 2, 145 (2023)
Recent Advances in the High Performance MXenes Nanocomposites
Lei LI, and Qunfeng CHENG
Two-dimensional transition metal carbon/nitride MXenes show promising applications in various fields due to their remarkable electrical and mechanical properties. Recently, the research of high performance MXenes nanocomposites (including one-dimensional fibers, two-dimensional films and three-dimensional blocks) has m
Journal of Inorganic Materials
  • Publication Date: Aug. 31, 2023
  • Vol. 39, Issue 2, 153 (2023)
Perspectives for Infrared Properties and Applications of MXene
Kun BA, Jianlu WANG, and Meikang HAN
MXene is a large family of two-dimensional transition metal carbides, nitrides or carbonitrides. Its characteristics (various compositions, two-dimensional atomic layer structures, metallic electrical conduction, active surfaces, etc.) render MXene unique interactions with electromagnetic waves at different frequencies
Journal of Inorganic Materials
  • Publication Date: Oct. 07, 2023
  • Vol. 39, Issue 2, 162 (2023)
Perspective of MXetronics
Xiangming XU, and N ALSHAREEF Husam
Atomic-thin transition metal carbonitrides (MXenes), as an emerging class of two-dimensional (2D) materials, become a highly active research topic. Since the discovery of graphene nearly 20 years ago, many 2D materials (graphene, transition metal dichalcogenides, and black phosphorus) have been extensively studied in t
Journal of Inorganic Materials
  • Publication Date: Aug. 31, 2023
  • Vol. 39, Issue 2, 171 (2023)
Recent Progress of MXene in Pressure Sensing
Jianyu YIN, Nishuang LIU, and Yihua GAO
In recent years, pressure sensors have been widely applied in the fields of smart wearable textile, health detection, and electronic skin. The emergence of the two-dimensional nanomaterial MXene has brought a brand-new breakthrough for pressure sensing. Ti3C2Tx is the most popular studied MXene in the field of pressure
Journal of Inorganic Materials
  • Publication Date: Oct. 15, 2023
  • Vol. 39, Issue 2, 179 (2023)
2D MXenes Based Flexible Photodetectors: Progress and Prospects
La LI, and Guozhen SHEN
Two-dimensional (2D) transition metal carbides/nitrides (MXenes), since their discovery in 2011, have attracted great attention in the fields of energy storage, catalysis, sensors, electromagnetic interference shielding and microwave absorption and so on, owing to their special 2D layered structure, excellent electrica
Journal of Inorganic Materials
  • Publication Date: Sep. 12, 2023
  • Vol. 39, Issue 2, 186 (2023)
MXene Multifunctional Inks: a New Perspective toward Printable Energy-related Electronic Devices
Shungui DENG, and Chuanfang ZHANG
Advanced ink printing techniques, such as printing and coating, have overcome the limitations of traditional manufacturing methods, allowing for rapid prototyping of films and electronic devices with sophisticated structures and specific functions. These techniques hold enormous potential in wearable smart identificati
Journal of Inorganic Materials
  • Publication Date: Nov. 10, 2023
  • Vol. 39, Issue 2, 195 (2023)
MXene Based Zinc Ion Batteries: Recent Development and Prospects
Ze CHEN, and Chunyi ZHI
Rechargeable zinc-ion batteries (ZIBs) have captured significant attention as promising solutions for large-scale energy storage. They offer advantages such as low cost, inherent safety, high specific energy, and eco-friendliness. Though numerous breakthroughs have been achieved in the development of cathodes, anodes a
Journal of Inorganic Materials
  • Publication Date: Dec. 19, 2023
  • Vol. 39, Issue 2, 204 (2023)
Progress of Two-dimensional MXene in New-type Thin-film Solar Cells
Ling FEI, Lei LEI, and Degao WANG
As renewable and sustainable clean energy, solar energy has the potential to address current energy shortage and reduce environmental pollution caused by fossil fuels consumption. In recent years, the third-generation thin-film solar cells, such as dye-sensitized solar cells (DSSCs) and perovskite solar cells (PSCs), h
Journal of Inorganic Materials
  • Publication Date: Dec. 25, 2023
  • Vol. 39, Issue 2, 215 (2023)
Predictions of Phase Stability and Properties of S-group Elements Containing MAX Borides
Yuchen ZHANG, Zhiyao LU, Xiaodong HE, Guangping SONG..., Chuncheng ZHU, Yongting ZHENG and Yuelei BAI|Show fewer author(s)
Zr2SB, Hf2SB, Zr2SeB, Hf2SeB, and Hf2TeB are all recently discovered S-group elements containing MAX-phase borides, which attract much attention since the MAX phase borides are significantly unlike the typical MAX phases. Here, the phase stability, mechanical properties and thermal properties of MAX phase borides (M =
Journal of Inorganic Materials
  • Publication Date: Aug. 21, 2023
  • Vol. 39, Issue 2, 225 (2023)
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