Interstitial boron-triggered electron-deficient Os aerogels for enhanced pH-universal hydrogen evolution

Li, Yinghao; Peng, Chun‐Kuo; Hu, Huimin; Chen, San‐Yuan; Choi, Jin Ho; Lin, Yan‐Gu; Lee, Jong‐Min

doi:10.1038/s41467-022-28805-8

Cited by 200 publications

(98 citation statements)

References 78 publications

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“…4e, because of the p-band matching, P 2p orbital shows a strong localization for bonding with O 2p orbital of water and hydroxyl groups, 47 and thus the phosphorus species can facilitate the water dissociation process (Volmer step). 48 Moreover, the positive shift of the Os 4f peak caused by phosphorus doping can induce the downshift of the d-band center, 49 which can decrease hydrogen adsorption energy on catalysts and thus optimize the Os–H ads interaction (Tafel step), 50 resulting in the facilitated formation of hydrogen.…”

Section: Resultsmentioning

confidence: 99%

P-modified hollow carbon mesoporous nanospheres decorated with ultrafine OsP alloy nanoparticles for nonacidic hydrogen evolution

et al. 2022

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Section: Resultsmentioning

confidence: 99%

P-modified hollow carbon mesoporous nanospheres decorated with ultrafine OsP alloy nanoparticles for nonacidic hydrogen evolution

et al. 2022

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“…In terms of potential applications, compared to other widely reported materials, − the multifunctional CMP gels and monoliths with careful design display promising prospects for widespread applications including gas separation, electrochromic devices, and energy storage. ,, Clinically, the injection of specific hydrogels into the body is an ideal method for drug delivery to target cells. ,− For this regard, the CMP gels serve as a powerful platform to conjugate components with specific biological functions into hydrogel networks and effectively control the release rate and immune irritation of vaccines. ,,, For heterogeneous catalysis, with the help of powerful polymerization tools, different catalysis active molecules such as metalloporphyrin, ,,, binol-derived phosphoric acid, , Trőger’s base, , and N-heterocyclic carbene can be introduced into the reconstructed 3D CMP conjugated networks for specific chemical applications. In addition, in the field of hydrogels and energy applications, ,,− the CMP gels and monoliths with binding sites can tightly bind conductive materials for broad application prospects.…”

Section: Future Perspectivesmentioning

confidence: 99%

Processable Conjugated Microporous Polymer Gels and Monoliths: Fundamentals and Versatile Applications

Luo

Almatrafi

Tang

et al. 2022

ACS Appl. Mater. Interfaces

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Conjugated microporous polymers (CMPs) as a new type of conjugated polymers have attracted extensive attention in academia and industry because of the combination of microporous structure and π-electron conjugated structure. The construction and application of gels and monoliths based on CMPs constitute a fertile area of research, promising to provide solutions to complex environmental and energy issues. This review summarizes and objectively analyzes the latest advances in the construction and application of processable CMP gels and monoliths, linking the basic and enhanced properties to widespread applications. In this review, we open with a summary of the construction methods used to build CMP gels and monoliths and assess the feasibility of different preparation techniques and the advantages of the products. The CMP gels and monoliths with enhanced properties involving various special applications are then deliberated by highlighting relevant scientific literature and discussions. Finally, we present the issues and future of openness in the field, as well as come up with the major challenges hindering further development, to guide researchers in this field.

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“…31 On the other hand, the electron transfer and/or orbital hybridization between the PGM and the interstitial dopant manifest a delicate control on the surface electronic structure of the resulting catalysts. 32,33 Among the light-element-doped PGM catalysts, B-doped PGMs were historically once studied in the thermocatalytic alkyne hydrogenation reactions. 34−36 In 2009, our group came up with the first report 37 on electrocatalysis of the formic acid oxidation reaction (FAOR) on homesynthesized Pd−B/C catalysts with improved electrocatalytic activity and anti-CO-poisoning stability.…”

Section: Introductionmentioning

confidence: 99%

Boron-Doped Platinum-Group Metals in Electrocatalysis: A Perspective

Qin

Zhang

et al. 2022

ACS Catal.

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Platinum-group metals (PGMs) as a representative class of electrocatalysts play a vital role in contemporary energy conversion and storage, including but not limited to fuel cells, metal-air batteries, and precise electrosynthesis. Metalloid B doping into the interstices of a PGM lattice is an alternative tuning knob and has attracted growing interest in effectively upgrading the reactivity, selectivity, and durability of surface PGM sites toward a multitude of electrocatalytic reactions, since the report on Pd–B-catalyzed formic acid electro-oxidation in 2009. In this Perspective, we present an in-depth overview on the advances of B-doped PGMs for different electrocatalytic application scenarios with an emphasis on the structure-reactivity relationship, showing how binding strengths of key intermediates can be properly tuned with the B-doping level on reactive surfaces. Insights from advanced structural characterizations, operando spectroelectrochemistry, and theoretical simulations on the B-doping effect are provided, together with our viewpoints on the future research and development of efficient B-doped PGMs in electrocatalysis.

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Interstitial boron-triggered electron-deficient Os aerogels for enhanced pH-universal hydrogen evolution

Cited by 200 publications

References 78 publications

P-modified hollow carbon mesoporous nanospheres decorated with ultrafine OsP alloy nanoparticles for nonacidic hydrogen evolution

P-modified hollow carbon mesoporous nanospheres decorated with ultrafine OsP alloy nanoparticles for nonacidic hydrogen evolution

Processable Conjugated Microporous Polymer Gels and Monoliths: Fundamentals and Versatile Applications

Boron-Doped Platinum-Group Metals in Electrocatalysis: A Perspective

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