Wiley_Advanced Science _ Cover Picture
Volume7, Issue20
October 21, 2020
2070114
Hot Holes: In Situ Visualization of Localized Surface Plasmon Resonance‐Driven Hot Hole Flux
In article number 2001148, Moonsang Lee, Jeong Young Park, and co‐workers demonstrate that fast‐disappearing hot holes are directly visualized using photoconductive atomic force microscopy. Experimental and numerical analysis show that hot spots at the edge of plasmonic nanostructures of Au nanoprisms on p‐type GaN exhibit enhanced hot hole flux driven by surface plasmons.
- Hyunhwa Lee
- Kyoungjae Song
- Moonsang Lee
- Jeong Young Park
https://onlinelibrary.wiley.com/doi/10.1002/advs.202070114
Image created by minjeong Kim / Nanosphere
Wiley_Advanced Science _ Cover Picture
Volume7, Issue20
October 21, 2020
2070114
Hot Holes: In Situ Visualization of Localized Surface Plasmon Resonance‐Driven Hot Hole Flux
In article number 2001148, Moonsang Lee, Jeong Young Park, and co‐workers demonstrate that fast‐disappearing hot holes are directly visualized using photoconductive atomic force microscopy. Experimental and numerical analysis show that hot spots at the edge of plasmonic nanostructures of Au nanoprisms on p‐type GaN exhibit enhanced hot hole flux driven by surface plasmons.
https://onlinelibrary.wiley.com/doi/10.1002/advs.202070114
Image created by minjeong Kim / Nanosphere