NANOX特刊征稿|Focus on Printed 2D Electronics

05 2月 2024 gabriels

特刊详情

客座编辑

  • Francesca Urban,法国斯特拉斯堡大学
  • Stefano Ippolito,美国德雷塞尔大学

主题范围

Electronic devices have become ubiquitous in every societal aspect and their use represents the beating heart of human life. Thus, it is obvious why the scientific community is constantly seeking for innovative materials with the potential to revolutionize existing technologies and promote the development of disruptive breakthroughs in electronics. Upon discovery and isolation of graphene in 2004, two-dimensional materials (2DMs) have proven to be the prime candidates to compensate for silicon deficiencies, due to strong quantum confinement, reduced screening, and surface effects. During the last 15 years, tremendous research efforts have been devoted to developing novel methods and strategies for the large-scale production of 2DMs. Solution processing represents the most effective protocol to attain high-concentration and high-volume dispersions (inks) that can be printed into thin films, using several approaches, including inkjet printing, screen printing, spray coating, and so on and so forth. This paves the way to the advances of 2D printed electronics, where low-cost and large-area fabrication is as relevant as device performance.
Original contributions are invited on relevant sub-topics, including but not limited to:

  • 2D (Opto)electronic devices
  • 2DMs for flexible/wearable devices
  • 2DM-based inks for electrical devices
  • Printing technologies of 2DMs for electronics
  • Multiscale characterization of 2DMs for electronics
  • 2D Materials
  • Printed Electronics
  • Conductive inks
  • Electrical Devices
  • Flexible Substrates

 

投稿流程

特刊文章与NANOX期刊常规文章遵循相同的审稿流程和内容标准,并采用同样的投稿模式。

有关准备文章及投稿的详细信息,可以参阅IOPscience页面的作者指南。

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“Focus issue on Printed 2D Electronics”。

投稿截止日期:2024年4月30日。


期刊介绍

Nano Express

  • 2022年影响因子: 3.0  Citescore: 4.1
  • Nano Express(NANOX)是一本新发表的多学科开放获取期刊,致力于纳米科技所有领域新的实验、理论和应用研究的快速出版。NANOX采用快速同行评审流程,对文章的长度要求也非常灵活。涵盖领域包括:纳米结构材料的合成和功能化;化学物质自组装和定向组装成纳米级物体的研究;纳米系统、薄膜和二维材料的物理及化学特性表征;纳米科学的理论与计算;纳米医学、生物技术和制药应用;纳米级能源和利用纳米结构开发替代能源的解决方案;量子现象和技术;材料的纳米制造和图案化;传感和探测器。