Two-dimensional semiconductors for transistors. Nat. Rev. Mater. 1, 16052 (2016). Article Google Scholar Schwierz, F., Pezoldt, J. & Granzner, R. Two-dimensional materials and their prospects in transistor electronics. Nanoscale 7, 8261–8283 (2015). Article Google Scholar Iannaccone, ...
The third chapter applies to another class of two-dimensional materials, transition metal dichalcogenides, which, unlike graphene, can exhibit suitable electronic band structures for logic applications. When the thickness of these transition metal dichalcogenides is reduced to a single atomic layer, ...
Two-dimensional Czochralski growth The two-dimensional Czochralski growth method enables the rapid production of large-area single-crystal MoS2, effectively alleviating the issues related to defect density and scalability for devices based on two-dimensional materials. ...
Although many 2D materials have emerged as potential options for transistor channels, it remains difficult for industry to select a single 2D material because of the multitude(众多) of trade-offs(权衡) involved in designing a viable(切实可行的) technology product. 尽管许多 2D 材料已成为晶体管通道...
Third, some two-dimensional materials possess a smaller work function, which can improve the emission current and significantly reduce the emission voltage [56]. Recent studies have shown significant progress in the development of field emission devices based on two-dimensional materials. For example,...
In this Review, from the perspective of matrix and logic computing, we discuss the opportunities, progress and challenges of integrating two-dimensional materials with in-memory computing and transistor-based computing technologies. 展开 DOI: 10.1038/s41565-020-0724-3 ...
two-dimensional (2D) materials stand out due to several exotic mechanical, electrical, optical, and chemical properties that can be efficiently integrated into atomic-thin films. While previous reviews on 2D materials for biodevices primarily focus on conventional configurations and materials like graphene...
1.1Two-dimensional materials Over the past several decades, the concept of dimensionality, and the engineering of materialsviachanges in dimensionality, has captured the collective imaginations of the materials science, physics, and chemistry communities. This stems from the potential for advanced technolog...
- 《Electronic Materials Letters》 被引量: 5发表: 2013年 I–V characteristics of two-dimensional nanodot-array single electron transistors We present a two-dimensional nanodot-array single-electron transistor (2DA-SET) analytical current–voltage model on the basis of master equation and the o.....
Two-dimensional materials are substances with a thickness of a few nanometres or less. Electrons in these materials are free to move in the two-dimensional plane, but their restricted motion in the third direction is governed by quantum mechanics. Prominent examples include quantum wells and graphe...