wiley_Advanced Functional Materials _Front cover Picture
Volume 30, Issue 10
March 3, 2020
Charge Separation Efficiency: Modulating Charge Separation Efficiency of Water Oxidation Photoanodes with Polyelectrolyte‐Assembled Interfacial Dipole Layers
In article number 1908492, Jungki Ryu, Byeong‐Su Kim, and co‐workers describe an approach to enhance the charge separation efficiency of water oxidation photoanodes by the interfacial dipole layer created by modifying their surface with polyelectrolyte multilayers assembled via a layer‐by‐layer technique. This approach is effective regardless of the pH and type of photoelectrodes, and potentially provides insights into the design and fabrication of efficient solar‐to‐chemical energy conversion devices.
- Sanghyun Bae
- Dongseok Kim
Hyunwoo Kim
Minsu Gu
Jungki Ryu
Byeong‐Su Kim
https://onlinelibrary.wiley.com/toc/16163028/2020/30/10
Image created by minjeong Kim / Nanosphere
wiley_Advanced Functional Materials _Front cover Picture
Volume 30, Issue 10
March 3, 2020
Charge Separation Efficiency: Modulating Charge Separation Efficiency of Water Oxidation Photoanodes with Polyelectrolyte‐Assembled Interfacial Dipole Layers
In article number 1908492, Jungki Ryu, Byeong‐Su Kim, and co‐workers describe an approach to enhance the charge separation efficiency of water oxidation photoanodes by the interfacial dipole layer created by modifying their surface with polyelectrolyte multilayers assembled via a layer‐by‐layer technique. This approach is effective regardless of the pH and type of photoelectrodes, and potentially provides insights into the design and fabrication of efficient solar‐to‐chemical energy conversion devices.
Hyunwoo Kim
Minsu Gu
Jungki Ryu
Byeong‐Su Kim
https://onlinelibrary.wiley.com/toc/16163028/2020/30/10
Image created by minjeong Kim / Nanosphere