Litcius/Paper detail

Temperature Dependence of Charge and Spin Transfer in Azurin

Yutao Sang, Suryakant Mishra, Francesco Tassinari, Senthil Kumar Karuppannan, Raanan Carmieli, Ruijie D. Teo, Agostino Migliore, David N. Beratan, Harry B. Gray, Israel Pecht, Jonas Fransson, David H. Waldeck, Ron Naaman

2021The Journal of Physical Chemistry C40 citationsDOIOpen Access PDF

Abstract

The steady-state charge and spin transfer yields were measured for three different Ru-modified azurin derivatives in protein films on silver electrodes. While the charge-transfer yields exhibit weak temperature dependences, consistent with operation of a near activation-less mechanism, the spin selectivity of the electron transfer improves as temperature increases. This enhancement of spin selectivity with temperature is explained by a vibrationally induced spin exchange interaction between the Cu(II) and its chiral ligands. These results indicate that distinct mechanisms control charge and spin transfer within proteins. As with electron charge transfer, proteins deliver polarized electron spins with a yield that depends on the protein's structure. This finding suggests a new role for protein structure in biochemical redox processes.

Topics & Concepts

AzurinElectron transferSpinsChemistrySpin (aerodynamics)Chemical physicsCharge (physics)RedoxProtein dynamicsElectronCharge exchangeSelectivitySpin statesMolecular dynamicsPhotochemistryCondensed matter physicsIonComputational chemistryPhysicsThermodynamicsInorganic chemistryOrganic chemistryQuantum mechanicsBiochemistryCatalysisPhotosynthetic Processes and MechanismsPorphyrin and Phthalocyanine ChemistrySpectroscopy and Quantum Chemical Studies