JPhysD特刊征稿|Device Applications Based on 2D Materials

07 2月 2024 gabriels



  • 汪萨克,金陵科技学院
  • Minglei Sun,比利时安特卫普大学


The discovery and isolation of graphene in 2004 was awarded the 2010 Nobel Prize in physics. Compared with traditional materials, graphene exhibits superior properties such as high strength and ultrahigh carrier mobility. Therefore, the discovery of graphene arouses intensive interest in two-dimensional (2D) materials in the world. Today, researchers are still predicting stable 2D materials which can be fabricated without much difficulty. Devices fabricated by 2D materials can have wide ranges of photonic, electronic, catalytic, plasmonic, energy, and biological applications.

We hope that in a few years, 2D materials will fully exploit their unique physical properties as well as the possibility to scale down devices to the atomic scale. Thus, we establish a focus issue on 2D materials and their device applications since the subject is still immature and rapidly developing. This focus issue will cover recent developments and challenges in the field of 2D materials and their applications, including but not limited to:

  • Monolayer and layered materials including van der Waals and moiré heterostructures
  • Topological systems
  • Superconductors
  • Photovoltaics
  • Photocatalysts
  • Batteries
  • Electrical transport and nanoelectronics
  • Plasmonics
  • Spintronics
  • Valleytronics
  • Optical properties and optoelectronic devices
  • Thermal properties and thermal management devices
  • Design of novel devices





作者可登入期刊主页进行在线投稿,先选择“文章类型”,然后在“选择特刊”的下拉框中选择“Special Issue on Device Applications Based on Two-dimensional Materials”。



Journal of Physics D: Applied Physics

  • 2022年影响因子:3.4  Citescore: 5.9
  • Journal of Physics D: Applied Physics(JPhysD,《物理学报D:应用物理》)发表应用物理各领域的前沿研究和综述,具体包括:应用磁学和磁性材料、半导体和光子学、低温等离子体和等离子表面相互作用、凝聚态物理、表面科学和纳米结构、生物物理以及能源等六个领域。文章类型包括原创性论文、研究路线图、通讯以及每年针对热点研究的专题综述和特刊。