Biopolymer Films of Metal-Coordinated Chlorophyll-a Derivatives for “Green” Supercapacitor Electrodes

Abstract: Chlorophylls (Chls) are the most naturally abundant organic dye pigments on earth. However, there is little research on Chl polymers so far. In this paper, we demonstrate the fabrication of a series of polymerized chlorophyll-a derivatives with different central metals (PolyMChls, M = Mg, Co, Ni, Cu, Zn, and Ga) via the electrochemical coupling of a peripheral vinyl group at the C3-position on the chlorin macrocycle. The formation of PolyMChls is confirmed by the broadening and slight red-shift of the Soret ba… Show more

“…Thus, we subsequently investigated the electro-polymerization of Chl derivatives possessing different central metals or C3 functional groups, and the resulting PolyChl films were applied to supercapacitors. [29,30] In this work, we prepared PSCs using PolyChl films fabricated by electrochemical polymerization as HTLs for the first time. Compared to Chl films prepared by spin-coating, the hole extraction capability of PolyChl films was significantly improved and the non-radiative energy loss of the devices was reduced.…”

“…Thus, we subsequently investigated the electro‐polymerization of Chl derivatives possessing different central metals or C3 functional groups, and the resulting PolyChl films were applied to supercapacitors. [ 29,30 ]…”

Perovskite Solar Cells Based on Polymerized Chlorophyll Films as Environmentally Friendly Hole‐Transporting Layers

“…Thus, we subsequently investigated the electro-polymerization of Chl derivatives possessing different central metals or C3 functional groups, and the resulting PolyChl films were applied to supercapacitors. [29,30] In this work, we prepared PSCs using PolyChl films fabricated by electrochemical polymerization as HTLs for the first time. Compared to Chl films prepared by spin-coating, the hole extraction capability of PolyChl films was significantly improved and the non-radiative energy loss of the devices was reduced.…”

“…Thus, we subsequently investigated the electro‐polymerization of Chl derivatives possessing different central metals or C3 functional groups, and the resulting PolyChl films were applied to supercapacitors. [ 29,30 ]…”

Perovskite Solar Cells Based on Polymerized Chlorophyll Films as Environmentally Friendly Hole‐Transporting Layers

Efficient and stable perovskite solar cells through electrochemically polymerized porphyrin-based hole-transporting materials