Electronic control of hot electron transport using modified Schottky barriers in metal–semiconductor nanodiodes
Hot electron flux, generated by both incident light energy and the heat of the catalytic
reaction, is a major element for energy conversion at the surface. Controlling hot electron …
reaction, is a major element for energy conversion at the surface. Controlling hot electron …
Electronic control of hot electron transport using modified Schottky barriers in metal− semiconductor nanodiodes
B Jeon, C Lee, JY Park - ACS Applied Materials and Interfaces, 2021 - pure.kaist.ac.kr
Hot electron flux, generated by both incident light energy and the heat of the catalytic
reaction, is a major element for energy conversion at the surface. Controlling hot electron …
reaction, is a major element for energy conversion at the surface. Controlling hot electron …
Electronic Control of Hot Electron Transport Using Modified Schottky Barriers in Metal-Semiconductor Nanodiodes
B Jeon, C Lee, JY Park - ACS applied materials & …, 2021 - pubmed.ncbi.nlm.nih.gov
Hot electron flux, generated by both incident light energy and the heat of the catalytic
reaction, is a major element for energy conversion at the surface. Controlling hot electron …
reaction, is a major element for energy conversion at the surface. Controlling hot electron …
Electronic Control of Hot Electron Transport Using Modified Schottky Barriers in Metal-Semiconductor Nanodiodes.
B Jeon, C Lee, JY Park - ACS Applied Materials & Interfaces, 2021 - europepmc.org
Hot electron flux, generated by both incident light energy and the heat of the catalytic
reaction, is a major element for energy conversion at the surface. Controlling hot electron …
reaction, is a major element for energy conversion at the surface. Controlling hot electron …