Quantum Advantage in A Molecular Spintronic Engine that Harvests Thermal Fluctuation Energy.
Fiche publication
Date publication
septembre 2022
Journal
Advanced materials (Deerfield Beach, Fla.)
Auteurs
Membres identifiés du Cancéropôle Est :
Dr MERTZ Damien
Tous les auteurs :
Chowrira B, Kandpal L, Lamblin M, Ngassam F, Kouakou CA, Zafar T, Mertz D, Vileno B, Kieber C, Versini G, Gobaut B, Joly L, Ferté T, Monteblanco E, Bahouka A, Bernard R, Mohapatra S, Garcia HP, Elidrissi S, Gavara M, Sternitzky E, Da Costa V, Hehn M, Montaigne F, Choueikani F, Ohresser P, Lacour D, Weber W, Boukari S, Alouani M, Bowen M
Lien Pubmed
Résumé
Recent theory and experiments have showcased how to harness quantum mechanics to assemble heat/information engines with efficiencies that surpass the classical Carnot limit. So far, this has required atomic engines that are driven by cumbersome external electromagnetic sources. Here, using molecular spintronics, we propose an implementation that is both electronic and autonomous. Our spintronic quantum engine heuristically deploys several known quantum assets by having a chain of spin qubits formed by the paramagnetic Co centers of phthalocyanine (Pc) molecules electronically interact with electron-spin selecting Fe/C interfaces. Density functional calculations reveal that transport fluctuations across the interface can stabilize spin coherence on the Co paramagnetic centers, which host spin flip processes. Across vertical molecular nanodevices, we measure enduring dc current generation, output power above room temperature, two quantum thermodynamical signatures of the engine's processes, and a record 89% spin polarization of current across the Fe/C interface. It is crucially this electron spin selection that forces, through demonic feedback and control, charge current to flow against the built-in potential barrier. Further research into spintronic quantum engines, insight into the quantum information processes within spintronic technologies, and retooling the spintronic-based information technology chain, could help accelerate the transition to clean energy. This article is protected by copyright. All rights reserved.
Mots clés
energy harvesting, molecules, quantum physics, quantum thermodynamics, spintronics
Référence
Adv Mater. 2022 09 30;:e2206688