Journal Article10.1016/j.jcis.2022.09.137
Dual-oxidation-induced lattice disordering in a Prussian blue analog for ultrastable oxygen evolution reaction performance.
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TL;DR: In this article , a dual-oxidized Co PBA nanocage was proposed to achieve high-valence Co ions by combined chemical oxidation and d-f electron coupling compared to the singly oxidized catalysts.
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About: This article is published in Journal of Colloid and Interface Science. The article was published on 01 Sep 2022. The article focuses on the topics: Medicine & Prussian blue.
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Citations
Dual elemental modulation in cationic and anionic sites of the multi-metal Prussian blue analogue pre-catalysts for promoted oxygen evolution reaction
Jun Ping Li,Min Guo,Xue Yang,Jiale Wang,Kexin Wang,Anran Wang,Fengcai Lei,Pin Hao,Junfeng Xie,Bo Tang +9 more
TL;DR: In this paper , the dual elemental modulation in the cationic and anionic sites of the multi-metal Prussian blue analogue (PBA) pre-catalysts was proposed, resulting in promoted oxygen evolution reaction (OER) behavior benefitted from the efficient pre-oxidation ability as well as the multimetal synergy.
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Ultrathin MnO2 with strong lattice disorder for catalytic oxidation of volatile organic compounds.
Baobao Bai,Ying Huang,Jiajia Chen,Juan Lei,Shuang Wang,Jiancheng Wang +5 more
TL;DR: Researchers developed ultrathin MnO2 with strong lattice disorder, enhancing low-temperature reduction and reactive oxygen species, leading to excellent VOC oxidation activities, particularly for toluene and acetone, with a proposed synergistic mechanism for mixed VOCs.
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Tandem surface engineering of graphene quantum dot-assisted fluorinated NiFe Prussian blue analogue for electrocatalytic oxygen evolution reaction
Angelina Melanita Tarigan,Sofia Rizki Aulia,M Rinawati,Ling-Yu Chang,Yao-Sheng Cheng,Ching-Cheng Chang,Jeng Lung Chen,Heru Setyawan,Min-Hsin Yeh +8 more
TL;DR: Researchers developed a tandem surface engineering strategy for NiFe Prussian blue analogue, incorporating fluorine doping and graphene quantum dot decoration, to enhance its electrocatalytic oxygen evolution reaction performance in alkaline medium with improved efficiency and durability.
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Electronic Structure Engineering of Electrocatalyst for Efficient Urea Oxidation Reaction
Akash S. Rasal,Hao Ming Chen,Wenzhao Yu +2 more
TL;DR: This review explores electronic structure engineering of electrocatalysts for efficient urea oxidation reaction, highlighting its potential to improve catalytic efficacies, interface-driven electron transfer, and reaction pathway optimization, with a focus on interface, doping, defect, phase, and strain engineering.
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Elucidating the catalytic mechanism of Prussian blue nanozymes with self-increasing catalytic activity
Kaizheng Feng,Zhenzhen Wang,Shi Wang,Guancheng Wang,Haijiao Dong,Hongliang He,Haoan Wu,Ming Ma,Xingfa Gao,Yu Zhang +9 more
TL;DR: Researchers investigate Prussian blue nanozymes' catalytic mechanisms, revealing a dual-path electron transfer mechanism that enables self-increasing catalytic activity, contrary to previously reported nanozymes, with a long service life as peroxidase and catalase mimetics.
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References
Combining theory and experiment in electrocatalysis: Insights into materials design
Zhi Wei Seh,Zhi Wei Seh,Zhi Wei Seh,Jakob Kibsgaard,Jakob Kibsgaard,Jakob Kibsgaard,Colin F. Dickens,Colin F. Dickens,Ib Chorkendorff,Jens K. Nørskov,Jens K. Nørskov,Thomas F. Jaramillo,Thomas F. Jaramillo +12 more
TL;DR: A unified theoretical framework highlights the need for catalyst design strategies that selectively stabilize distinct reaction intermediates relative to each other, and opens up opportunities and approaches to develop higher-performance electrocatalysts for a wide range of reactions.
Electrocatalysis for the oxygen evolution reaction: recent development and future perspectives
TL;DR: This review acquaints some materials for performing OER activity, in which the metal oxide materials build the basis of OER mechanism while non-oxide materials exhibit greatly promising performance toward overall water-splitting.
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A review on fundamentals for designing oxygen evolution electrocatalysts
Jiajia Song,Jiajia Song,Chao Wei,Zhen-Feng Huang,Chuntai Liu,Lin Zeng,Xin Wang,Zhichuan J. Xu +7 more
TL;DR: This article summarized the recent progress in understanding OER mechanisms, which include the conventional adsorbate evolution mechanism (AEM) and lattice-oxygen-mediated mechanism (LOM) from both theoretical and experimental aspects, and introduced strategies to reduce overpotential.
MOF-derived electrocatalysts for oxygen reduction, oxygen evolution and hydrogen evolution reactions
TL;DR: A wide range of applications based on these materials for ORR, OER, HER and multifunctional electrocatalysis are discussed, with an emphasis on the required features of MOF-derived carbon-based materials for the Electrocatalysis of corresponding reactions.
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