Chen, Y., Fang, F. & Zhang, N. Advance in additive manufacturing of 2D materials at the atomic and close-to-atomic scale. npj 2D Mater. Appl., 2024. 10.1038/s41699-024-00456-x。
成果简介 为此,柏林大学学院机械与材料工程学院Nan Zhang教授团队在npj-2D Materials and Applications期刊发题为“Advance in additive manufacturing of 2D materials at the atomic and close-to-atomic scale”的研究成果。这项研究旨在开发新的制造技术,使二维材料的制造过程更加高效、简化和可控。通过这些新方法,科...
Before stacking these 2D layers, their thicknesses are evaluated with their color contrast in the optical microscope, then confirmed by PL-spectroscopy. The lattice directions of the exfoliated MoSe2 and WSe2 monolayers were identified with the optical microscope using the edge identification method53...
成果简介 为此,柏林大学学院机械与材料工程学院Nan Zhang教授团队在npj-2D Materials and Applications期刊发题为“Advance in additive manufacturing of 2D materials at the atomic and close-to-atomic scale”的研究成果。这项研究旨在开发新的制造技术,使二维材料的制造过程更加高效、简化和可控。通过这些新方法,科...
国际简称:NPJ 2D MATER APPL 出版周期:Continuous publication 研究方向:Engineering - Mechanics of Materials 出版语言:English 创刊时间:2017 是否预警:否 出版地区:ENGLAND 是否OA:开放 期刊介绍 《Npj 2d Materials And Applications》(《Npj 2d 材料和应用》)是一本由Springer Nature出版的Engineering-Mechanics of...
Recent advances in two-dimensional (2D) materials have led to the renewed interest in intercalation as a powerful fabrication and processing tool. Intercalation is an effective method of modifying the interlayer interactions, doping 2D materials, modifyi
随着这些问题的解决,原子尺度二维材料增材制造将为制造技术的进步和二维材料应用的拓展带来更多机遇。 文献信息 Chen, Y., Fang, F. & Zhang, N. Advance in additive manufacturing of 2D materials at the atomic and close-to-atomic scale. npj 2D Mater. Appl., 2024. 10.1038/s41699-024-00456-x。
随着这些问题的解决,原子尺度二维材料增材制造将为制造技术的进步和二维材料应用的拓展带来更多机遇。 文献信息 Chen, Y., Fang, F. & Zhang, N. Advance in additive manufacturing of 2D materials at the atomic and close-to-atomic scale. npj 2D Mater. Appl., 2024. 10.1038/s41699-024-00456-x。
This work demonstrates a large area process for atomically thin 2D semiconductors to unlock the technological upscale required for their commercial uptake. The new atomic layer deposition (ALD) and conversion technique yields large area performance unifo
The successful discovery and isolation of graphene in 2004, and the subsequent synthesis of layered semiconductors and heterostructures beyond graphene have led to the exploding field of two-dimensional (2D) materials that explore their growth, new atomi