Abstract
With the theory of absolute reaction rate we demonstrate the possible superconducting transition in sulfur hydrides within the room-temperature regime via tuning of activation volume as well as activation energy for the first time under zero shear rates. Before we present our novel approach and numerical results we firstly verify our calculations with previous measurements [Drozdov et al. Nature 525 (2015) 73]. After successful verifications, we illustrate our novel numerical results via the enhancing transition temperature for electronic liquids in sulfur hydrides to within the room-temperature regime (after decreasing of activation volume: ∼10−27m3 decrement or increasing of activation energy under zero shear rates compared to previous Drozdov et al.'s experimental data).
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