A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Emerging Trends in Phosphorene Fabrication towards Next Generation Devices
The challenge of science and technology is to design and make materials that will dominate the future of our society. In this context, black phosphorus has emerged as a new, intriguing two‐dimensional (2D) material, together with its monolayer, which is referred to as phosphorene. The exploration of this new 2D material demands various fabrication methods to achieve potential applications— this demand motivated this review. This article is aimed at supplementing the concrete understanding of existing phosphorene fabrication techniques, which forms the foundation for a variety of applications. Here, the major issue of the degradation encountered in realizing devices based on few‐layered black phosphorus and phosphorene is reviewed. The prospects of phosphorene in future research are also described by discussing its significance and explaining ways to advance state‐of‐art of phosphorene‐based devices. In addition, a detailed presentation on the demand for future studies to promote well‐systemized fabrication methods towards large‐area, high‐yield and perfectly protected phosphorene for the development of reliable devices in optoelectronic applications and other areas is offered.
Emerging Trends in Phosphorene Fabrication towards Next Generation Devices
The challenge of science and technology is to design and make materials that will dominate the future of our society. In this context, black phosphorus has emerged as a new, intriguing two‐dimensional (2D) material, together with its monolayer, which is referred to as phosphorene. The exploration of this new 2D material demands various fabrication methods to achieve potential applications— this demand motivated this review. This article is aimed at supplementing the concrete understanding of existing phosphorene fabrication techniques, which forms the foundation for a variety of applications. Here, the major issue of the degradation encountered in realizing devices based on few‐layered black phosphorus and phosphorene is reviewed. The prospects of phosphorene in future research are also described by discussing its significance and explaining ways to advance state‐of‐art of phosphorene‐based devices. In addition, a detailed presentation on the demand for future studies to promote well‐systemized fabrication methods towards large‐area, high‐yield and perfectly protected phosphorene for the development of reliable devices in optoelectronic applications and other areas is offered.
Emerging Trends in Phosphorene Fabrication towards Next Generation Devices
Dhanabalan, Sathish Chander (author) / Ponraj, Joice Sophia (author) / Guo, Zhinan (author) / Li, Shaojuan (author) / Bao, Qiaoliang (author) / Zhang, Han (author)
Advanced Science ; 4
2017-06-01
32 pages
Article (Journal)
Electronic Resource
English
Fabrication Strategies for 2D Halide Perovskite Towards Next-Generation Optoelectronic Applications
| Springer Verlag | 2025
Emerging Technologies/Practices: Finding the Next Generation
| British Library Conference Proceedings | 2004
Trends of Next Generation Interconnection Boards
| British Library Online Contents | 2018
INDUSTRY NEWS & TRENDS - Employing the neXt generation
Online Contents | 1999