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Vacancy engineering induced reaction kinetics enhancement of cobalt metaphosphate for pH-universal hydrogen evolution
Develo** efficient pH-universal hydrogen evolution reaction (HER) catalysts is critical in the field of water electrolysis, however, which is...
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Highly efficient pH-universal hydrogen evolution reaction catalyzed by rapidly reconstructed bimetallic cobalt-molybdenum alloy cuboids arrays
Given the inherent potential of seawater, industrial wastewater, and residential water as inherent feedstocks for hydrogen production through water...
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MoCoB metallic glass microwire catalysts for highly efficient and pH-universal degradation of wastewater
One important goal of the current Fenton-like catalysts is to develop highly efficient and pH-universal catalysts that can operate with little...
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Micropore-confined Ru nanoclusters catalyst for efficient pH-universal hydrogen evolution reaction
Pt-based catalysts are used commercially for the hydrogen evolution reaction (HER), even though the low earth abundance and high cost of platinum...
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A pH-universal ORR catalyst with atomic Fe-heteroatom (N, S) sites for high-performance Zn-air batteries
Develo** innovative, easy-to-manufacture, and non-Pt-group-metal (non-PGM) electrocatalysts is essential for the highly efficient oxygen reduction...
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Recent achievements in selenium-based transition metal electrocatalysts for pH-universal water splitting
The electrolysis of water to produce hydrogen is an important technique to replace traditional fossil fuel-based hydrogen production. This method...
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P-band center theory guided activation of MoS2 basal S sites for pH-universal hydrogen evolution
The edge S sites of thermodynamically stable 2H MoS 2 are active for hydrogen evolution reaction (HER) but the active sites are scarce. Despite the...
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Synergistic integration of self-supported 1T/2H−WS2 and nitrogen-doped rGO on carbon cloth for pH-universal electrocatalytic hydrogen evolution
Hydrogen economy based on electrochemical water splitting exemplified one of the most promising means for overcoming the rapid consumption of fossil...
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Construction of pH-universal hydrogen evolution freeway in MoO3-MoNi4@Cu core–shell nanowires via synergetic electronic and geometric effect
Both the adsorption/dissociation of water molecules and hydrogen intermediate (H*) are the major limitations to hydrogen evolution reaction (HER)....
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Interfacial engineering of 3D hollow CoSe2@ultrathin MoSe2 core@shell heterostructure for efficient pH-universal hydrogen evolution reaction
Rational design and construction of low-cost and highly efficient electrocatalysts for hydrogen evolution reaction (HER) is meaningful but...
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Metal-organic framework-derived Co nanoparticles and single atoms as efficient electrocatalyst for pH universal hydrogen evolution reaction
Hydrogen release through water splitting is essential for reducing carbon emissions and promoting the hydrogen economy. One of the crucial challenges...
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Space-confined ultrafine Co4N nanodots within an N-doped carbon framework on carbon cloth for highly efficient universal pH overall water splitting
Electrocatalysts with high efficiency and stability for water splitting over a broad pH range are highly desirable but difficult to synthesize....
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Site difference influence of anchored Ru in mesoporous carbon on electrocatalytic performance toward pH-universal hydrogen evolution reaction
Ru-based electrocatalysts have demonstrated excellent electrocatalytic performance toward hydrogen evolution reaction (HER). However, designing Ru...
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Cobalt phosphide nanoarrays with crystalline-amorphous hybrid phase for hydrogen production in universal-pH
To accomplish mass hydrogen production by electrochemical water-splitting, it is a necessary to develop robust, highly active, stable, and...
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Rationally engineered Co and N co-doped WS2 as bifunctional catalysts for pH-universal hydrogen evolution and oxidative dehydrogenation reactions
In the field of electrolysis of water, the design and synthesis of catalysts over a wide pH range have attracted extensive attentions. In this paper,...
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Ultrastable bimetallic Fe2Mo for efficient oxygen reduction reaction in pH-universal applications
Iron-based nanostructures represent an emerging class of catalysts with high electroactivity for oxygen reduction reaction (ORR) in energy storage...
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Atomic Fe-Zn dual-metal sites for high-efficiency pH-universal oxygen reduction catalysis
An effective electrocatalyst being highly active in all pH range for oxygen reduction reaction (ORR) is crucial for energy conversion and storage...
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Erratum to: Cobalt phosphide nanoarrays with crystalline-amorphous hybrid phase for hydrogen production in universal-pH
The contributions of the first two authors were unfortunately misrepresented on the first page and the first page of the ESM.
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Phosphorus-induced electronic structure reformation of hollow NiCo2Se4 nanoneedle arrays enabling highly efficient and durable hydrogen evolution in all-pH media
With practical electrocatalytic hydrogen production frequently involving the splitting of water in various pH media, there is an urgent need but...
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Macrokinetics of the deterioration of cement-based grouting material for predicting its service life under acid rain attack
Cement-based grouting material is widely used to reinforce the unsafe rock and control seepage of rock-carved relics although it is considered...