6533b851fe1ef96bd12a8fcd

RESEARCH PRODUCT

Efficient Conversion of Light to Chemical Energy : Directional, Chiral Photoswitches with Very High Quantum Yields

Widukind MoormannRainer HergesKari RissanenEduard StadlerTobias TellkampGeorg GescheidtFynn RöhrichtRakesh PuttreddyChristian Näther

subject

energy conversionMaterials science116 Chemical sciences010402 general chemistry01 natural sciencesCatalysisPhotochromismMolecular motorEnergy transformationQuantumquantum yieldsphotochemistry010405 organic chemistrybusiness.industryCommunicationdiazocineDiastereomerGeneral ChemistryphotochromismCommunications0104 chemical sciencesChemical energyOptoelectronicsvalokemiabusinessIsomerizationVisible spectrum

description

Abstract Photochromic systems have been used to achieve a number of engineering functions such as light energy conversion, molecular motors, pumps, actuators, and sensors. Key to practical applications is a high efficiency in the conversion of light to chemical energy, a rigid structure for the transmission of force to the environment, and directed motion during isomerization. We present a novel type of photochromic system (diindane diazocines) that converts visible light with an efficiency of 18 % to chemical energy. Quantum yields are exceptionally high with >70 % for the cis–trans isomerization and 90 % for the back‐reaction and thus higher than the biochemical system rhodopsin (64 %). Two diastereomers (meso and racemate) were obtained in only two steps in high yields. Both isomers are directional switches with high conversion rates (76–99 %). No fatigue was observed after several thousands of switching cycles in both systems.

yearjournalcountryeditionlanguage
2020-01-01
10.1002/anie.202005361https://trepo.tuni.fi/handle/10024/127406