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Room-Temperature Activation of CO2 by Dual Defect-Stabilized Nanoscale Hematite (Fe2-delta O3-v): Concurrent Role of Fe and O Vacancies

Room-Temperature Activation of CO2 by Dual Defect-Stabilized Nanoscale Hematite (Fe2-delta O3-v): Concurrent Role of Fe and O Vacancies

Nagaraju, Divya; Gupta, Sharad; Kumar, Deepak; Jijil, Chamundi P.; Bhat, Suresh K.; Jagadeesan, Dinesh; OGALE, SATISHCHANDRA
URI: http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/5423
https://doi.org/10.1021/acsomega.7b01505
Date: 2017-11


Abstract:

We demonstrate that synthetically controlled concurrent stabilization of Fe and O vacancy defects on the surface of interbraided nanoscale hematite (Fe2-delta O3-v) renders an interesting surface chemistry which can reduce CO2 to CO at room temperature (RT). Importantly, we realized a highly enhanced output of 410 mu mol h(-1) g(-1) at RT, as compared to that of 10 mu mol h(-1) g(-1) for bulk hematite. It is argued based on the activity degradation under cycling and first principles density functional theory calculations that the excess chemical energy embedded in the defect-stabilized surface is expended in this high-energy conversion process, which leads to progressive filling up of oxygen vacancies.

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