Effect of Central Metals in the Porphyrin Ring on Photocurrent Performance of Cellulose Langmuir-Blodgett Films

Role‐sharing functionalized cellulose derivatives having Mg, Zn, Cu, and Pd porphyrins are used for photocurrent generation system fabricated by the LB technique, mimicking the array of natural photosynthetic light‐harvesting systems. These polymers exhibited different absorption and redox properties in solution depending on the central metal ions. On visible light illumination, the LB film generated anodic photocurrent in the order of Pd > free base > Zn > Cu > Mg. By inserting Pd ion, using myristoyl group, and adjusting the DS, the photocurrent quantum yield was 6.9 times as great as that of conventional porphyrin cellulose. These findings may provide opportunities for the design of a new class of organic solar cells, based on cellulose molecular characteristics. Role‐sharing functionalized cellulose derivatives containing Mg, Zn, Cu, and Pd porphyrins are used for photocurrent generation systems built using the LB technique, mimicking the array of natural photosynthesis. By inserting Pd ions, using myristoyl groups and adjusting the DS, the photocurrent quantum yield becomes 6.9 times as great as that of conventional porphyrin‐cellulose. These findings provide opportunities for the design of cellulose‐based solar cells.