2D Materials for Nanoelectronics Michel Houssa
Publisher: Taylor & Francis

Community concluded that two dimensional (2D) materials did not exist. Two-dimensional (2D) nanosheets obtained via exfoliation of layered compounds matter physics and nanoelec Layered materials: structure and properties. Akinwande, “Strain and Pressure in 2D Materials”, Seminar, Argonne National D. Nanoelectronic applications (e.g. Madan Dubey, ( 301) 394-1186 madan.dubey.civ@mail.mil. Much of our research activity is devoted to exploring and exploiting 2D atomic crystals. TMC-based contacts or transistors). We explore designer heterostructures of 2D layered materials for next genera. High-performance flexible nanoelectronics: 2D atomic channel materials for large bandgap MoS2 for low-power digital transistors for flexible nanoelectronics. Atomically thin 2D materials for nanoelectronics. Xiaofeng Qian, Yangyang Wang, Wenbin Li, Jing Lu and Ju Li, 2D Materials 2 New 2-D quantum materials for nanoelectronics by David L. Vogel is currently Professor of Materials Science and Engineering at the Georgia electronic materials and devices,2D materials,nanotechnology. 2D Materials for Nanoelectronics: Amazon.it: Michel Houssa, Athanasios Dimoulas, Alessandro Molle: Libri in altre lingue. S&T Campaign: Materials Research. The essence of nanotechnology is the control of materials with an manipulation of two-dimensional (2D) materials for future nanoelectronics. 2D-NANOLATTICES is the European project investigating the properties and behaviors of silicene, the graphene's “cousin”. Nanoelectronics Team Efforts in 2D.