The excellent performance of [email protected]/g-C3N4 is attributed to that the amino groups of nitrogen in C-N/g-C3N4 shell can regulate the transmission rate of electrons released from ZVI core by adjusting the transmission rate of H, so as to improve the electron utilization efficiency of PMS activation.doi:10.1016/j.a...
摘要: Ingenious design of electron transport channel is crucial to improve the electron utilization efficiency from inorganic g-C 3 N 4 (CN) to organic horseradis关键词: Photo-enzyme BPA Degradation carbon nanotubes electron transport channel ...
[10••,43,44]such that the electrocatalytically active enzyme is located near the electrode surface while enzymes near the solution:gel interface do not contribute. Combining redox active hydrogels with three-dimensionalelectrode materialscan improve the efficiency of enzyme utilization[43,45]. To...
2,3, particularly in the community of energy-related electrocatalysis4. In comparison to their bulk or nanosized equivalents, they display maximum atom utilization efficiency and unconventional catalytic
It has to perform at maximum efficiency under light-limited conditions, but has to avoid photo-damage when the incoming light energy exceeds the capacity for utilization. To survive in the field and compete with other species, it is essential for plants to develop multiple strategies for ...
Single-atom alloys have recently emerged as highly active and selective alloy catalysts. Unlike pure metals, single-atom alloys escape the well-established conceptual framework developed nearly three decades ago for predicting catalytic performance. Alth
Since the introduction of electron microscopes in the 1930s, scanning electron microscopy (SEM) has developed into a critical tool within many research fields, spanning everything from materials science and life sciences to forensics and industrial manufacturing. When microscopic information about the sur...
Its strong Fe–O and Fe–Cl bonds could promote electron transfer, thereby accelerating the reduction of Fe and improving the catalytic rate and utilization rate of oxidants. Since FeOCl had unique and superior structure, it could be used to catalyze 2 persulfates PS and PMS to degrade ...
becomes a tedious and time-consuming task to understand the fundamentals of electron emission, the differences between several proposed mechanisms, the application and utilization of theories, the strategies to improve emission performance, and the potential applications, especially for students and ...
Zhang Weiqing, a researcher with the Dalian Institute of Chemical Physics, said the DCLS will also be used to study the chemical mechanism of burning, which will help improve the efficiency of energy utilization and reduce pollution emissions. ...