Record-high photocatalytic rate at single atomic metal oxide
Cong Wang

TL;DR
This paper reports the creation of single atomic metal oxide with a unique quasi atom physics mechanism, achieving a record-high sunlight photocatalytic degradation rate vastly surpassing existing materials.
Contribution
It introduces a novel single atomic metal oxide with a distinct physical mechanism that significantly enhances photocatalytic efficiency beyond traditional size effects.
Findings
Record high photocatalytic degradation rate of 0.24 under sunlight.
The catalytic mechanism is governed by a quasi atom physics, not traditional size effects.
Achieves approximately two orders of magnitude improvement over existing photocatalysts.
Abstract
Metal oxides have been extensively investigated and applied in environmental remediation and protection, energy conversion and storage. Most of these diverse applications are results of a large diversity of the electronic states of metal oxides. Noticeably, however, numerous metal oxides have obstacles for applications in catalysis because of low density of active sites in these materials. Size reduction of oxide catalyst is a strategy to improve the active site density. Here, we demonstrate the fabrication of single atomic metal oxide in which the oxide size reaches its minimum. However, the catalytic mechanism in this SATO is determined by a quasi atom physics which is fundamentally distinct from the traditional size effect, and also is in contrast to the standard condensed matter physics. SATO results in a record high and stable sunlight photocatalytic degradation rate of 0.24, which…
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Taxonomy
TopicsAdvanced Photocatalysis Techniques · Catalytic Processes in Materials Science · Gas Sensing Nanomaterials and Sensors
