Nonenzymatic NADH-Dependent Reduction of Keggin-Type 12-Tungstocobaltate(III) in Aqueous Medium by Prabla Kumari, Alaka Das, Dillip Kumar Baral, A. K. Pattanaik, P. Mohanty

“…The electron transfer reaction showed first-order dependence each in [NADH]T and [12-tungstocobaltate(III)]T. …”
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Suppressing Jahn-Teller distortion of MnO2 via B-Ni dual single-atoms integration for methane catalytic combustion by Huayu Gu, Fanyu Wang, Sai Chen, Jintong Lan, Jun Wang, Chunlei Pei, Xiao Liu, Jinlong Gong

“…Meanwhile, Ni atoms facilitate electron transfer to achieve the heightened activity of MnO2. …”
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Characterization of Bismuth Composited to Carbon Nanotube-Coated Titanium Cathode in Electro-Fenton System by Yi-Ta Wang, Yi-Chi Hsieh, Yue-Sheng Lin

“…Cathodes constructed from composites of Bi and carbon nanotube (CNT) exhibit high stability and low resistance, which enhance their electron transfer capability. In this work, a titanium substrate was coated with multi-walled carbon nanotube (MWCNT/Ti) using electrophoretic deposition process, followed by electrodeposition of Bi onto the MWCNT-coated Ti (Bi/MWCNT/Ti). …”
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Electrochemical Characterization of Platinum Nanotubules Made via Template Wetting Nanofabrication by Eric Broaddus, Joel Brubaker, Scott A. Gold

“…A variety of nanostructured carbon electrodes developed in recent years have been reported to exhibit faster electron transfer kinetics than more traditional carbon structures when studied with these redox reactions. …”
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Light-Induced Tyrosine Radical Formation from Ruthenium-Tyrosine Complex Anchored to SnO2 Semiconductor by Raed Ghanem

“…Steady state spectroscopy and flash photolysis measurements were used to study the multistep electron transfer in a supramolecular complex adsorbed on the surface of nanocrystalline SnO2 in order to mimic the function of the tyrosineZ and chlorophyll unit P680 in natural photosystem II (PSII). …”
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The Substitution Effect on Reaction Enthalpies of Antioxidant Mechanisms of Juglone and Its Derivatives in Gas and Solution Phase: DFT Study by Aymard Didier Tamafo Fouegue, Désiré Bikélé Mama, Julius Numbonui Ghogomu, Younang Elie, Marie-Annie Etoh

“…Three major antioxidant mechanisms (hydrogen atom transfer (HAT), single electron transfer-proton transfer (SET-PT), and sequential proton loss electron transfer (SPLET)) have been investigated in five solvents and in the gas phase. …”
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Physical Insights into Molecular Sensors, Molecular Logic Gates, and Photosensitizers in Photodynamic Therapy by Demeter Tzeli, Ioannis D. Petsalakis

“…In this article, the importance of charge/electron transfer in two rapidly growing areas of science is highlighted. …”
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Semiconductors as sensitisers for the radical addition of tertiary amines to electron deficient alkenes by Siniša Marinković, Norbert Hoffmann

“…The photochemical induced electron transfer process initiates the radical chain reaction and inorganic semiconductors like TiO2 and ZnS were used. …”
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Constructing Neuron-like Structured NiS₂/MOF Composites with Enhanced Regulation of Electron Transport and Active Sites for Oxygen Evolution by Yanli Guo, Di Zhou, Yanyan Huang, Xiaolong Song, Wei He

“…Constructing fast electron transfer pathways and abundant electro-active sites is an effective strategy to improve the oxygen evolution reaction (OER) performance of catalysts. …”
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Highly selective generation of singlet oxygen via peroxymonosulfate activation by Mn–N supported biochar by Huan Wu, Fangfang Ji, Bin Zhou, Shikun Gao, Zhe Zhang

“…Density functional theory calculations were employed to further investigate the mechanism of enhanced electron transfer of PMS facilitated by the loading of BC on the Mn–N site. …”
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Influences of Mg Doping on the Electrochemical Performance of TiO2 Nanodots Based Biosensor Electrodes by M. S. H. Al-Furjan, Kui Cheng, Wenjian Weng

“…Enzyme adsorptions on biosensor electrodes and direct electron transfer between them have been recognized as key factors to affect biosensor performance. …”
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Highly Sensitive Immunosensing of Carcinoembryonic Antigen Based on Gold Nanoparticles Dotted PB@PANI Core-Shell Nanocubes as a Signal Probe by Dexiang Feng, Lingzhi Chen, Ke Zhang, Shuangshuang Zhu, Meichen Ying, Peng Jiang, Menglan Fu, Yan Wei, Lihua Li

“…First, a facile low-temperature method was used to prepare the uniform PB@PANI core-shell nanocubes with the assistance of PVP, where PB acted as the electron transfer mediator to provide electrochemical signals, and the PANI with excellent conductivity and desirable chemical stability not only played the role of a protective layer to prevent etching of PB in basic media but also effectively improved electron transfer. …”
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The promotion effect of FeS2 on Sb2S3 bioleaching and Sb speciation transformation by Xing-fu Zheng, Xing-fu Zheng, Xing-fu Zheng, Jin-lan Xia, Jin-lan Xia, Zhen-yuan Nie, Zhen-yuan Nie, Hong-peng Cao, Hong-peng Cao, Rui-Jia Hu, Yu-ting Liang, Hong-chang Liu, Hong-chang Liu

“…The electrochemical results revealed that after FeS2 was mixed, a FeS2-Sb2S3 galvanic cell formed, which promoted the electron transfer efficiency and redox reaction of Sb2S3. …”
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Electrochemical Glucose Sensor Based on Dual Redox Mediators by Changyun Quan, Yue Zhang, Yuanyuan Liu, Liping Wen, Haixia Yang, Xueqin Huang, Minghui Yang, Binjie Xu

“…The synergistic effect of PD and Ru(III) was utilized to efficiently facilitate the electron transfer between the enzyme-active center and the electrode. …”
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Electrochemical Analysis of Architecturally Enhanced LiFe0.5Mn0.5PO4 Multiwalled Carbon Nanotube Composite by Sabelo Sifuba, Shane Willenberg, Usisipho Feleni, Natasha Ross, Emmanuel Iwuoha

“…Cyclic voltammetry was used to evaluate the electrochemical parameters (electron transfer and ionic diffusivity) of the LiFe0.5Mn0.5PO4 redox couples. …”
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Green catalysts AuNPs/CQDs from turmeric starch: an effective solution in 4-Nitrophenol reduction by Thi Hoa Le, Ta Thi Ngoc Anh, Nguyen Thi Thu Huong, Le Thi Thanh Nhi, Quoc Hien Nguyen, Thai Hoa Tran

“…In addition to the advantages of CQDs in catalysis, such as their large surface area and the presence of functional groups, including hydroxyl (-OH) and carbonyl (-C=O), as evidenced by FTIR analysis, the material also demonstrates excellent electron transfer efficiency. This efficiency is attributed to the synergistic interaction between AuNPs and the functional groups on CQDs, facilitating catalytic electron transfer processes in reducing 4-nitrophenol (4-NP). …”
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Biogeochemical coupling of C/Fe in oil-polluted wetlands associated with iron reduction by Xiaolin Zhang, Wendan Xue, Guoliang Wang, Jieliang Liang, Qi Wang, Yuhao Li, Wensheng Shu, Qixing Zhou

“…The intensified iron reduction process reduced methane emissions by 38–40% and strengthened microbial interactions by redirecting electron transfer in carbon flow. Our study innovatively mitigates pollution and reduces methane emissions in oil-contaminated wetlands.…”
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A Facile Electrode Modification Approach Based on Metal-Free Carbonaceous Carbon Black/Carbon Nanofibers for Electrochemical Sensing of Bisphenol A in Food by Jin Wang, Zhen Yang, Shuanghuan Gu, Mingfei Pan, Longhua Xu

“…Herein, the hybrid CB/f-CNF was prepared using a simple one-step ultrasonication method, and exhibited good electron transfer capability and excellent catalytic properties, which can be attributed to the large surface area of carbon black and the strong enhancement of the conductivity and porosity of carbon nanofibers, which promote a faster electron transfer process on the electrode surface. …”
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Performance Improvement of Dye-Sensitized Solar Cell- (DSSC-) Based Natural Dyes by Clathrin Protein by Prihanto Trihutomo, Sudjito Soeparman, Denny Widhiyanuriyawan, Lilis Yuliati

“…This low efficiency is due to the barrier of electron transfer in the TiO2 semiconductor layer. In this study, the addition of clathrin protein to the TiO2 layer was used to increase electron transfer in the semiconductor layer resulting in improved DSSC performance. …”
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Simultaneous implementation for landfill leachate treatment and desulfurization and decarbonization of landfill gas purification by NIE Wenbo, CHEN Yi*

“…This significant upgrade in landfill gas can be attributed to highly active denitrifying anaerobic methanogenic archaea species within the electron transfer system which enhance CO2 -reducing CH4 production through direct electron transfer between species. …”
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