Articles with "electrolyte engineering" as a keyword



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Electrolyte Engineering: Optimizing High-Rate Double-Layer Capacitances of Micropore- and Mesopore-Rich Activated Carbon.

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Published in 2017 at "ChemSusChem"

DOI: 10.1002/cssc.201701476

Abstract: Various types of electrolyte cations as well as binary cations are used to optimize the capacitive performance of activated carbon (AC) with different pore structures. The high-rate capability of micropore-rich AC, governed by the mobility… read more here.

Keywords: electrolyte engineering; mesopore rich; high rate; activated carbon ... See more keywords

Electrolyte engineering stabilizes photoanodes decorated with molecular catalysts.

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Published in 2023 at "ChemSusChem"

DOI: 10.1002/cssc.202202319

Abstract: Molecular catalysts are promising oxygen evolution promoters in conjunction with photoanodes for solar water splitting. Maintaining the stability of both photoabsorber and co-catalyst is still a prime challenge, with many efforts tackling this issue through… read more here.

Keywords: stabilizes photoanodes; engineering stabilizes; stability; molecular catalysts ... See more keywords

Advancements and Perspectives on Nonaqueous Electrolyte Engineering for Graphite Anode in Potassium-Ion Battery.

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Published in 2025 at "Small"

DOI: 10.1002/smll.202412419

Abstract: Potassium-ion batteries (KIBs) have emerged as a promising alternative to lithium-ion batteries due to the abundance and low cost of potassium resources. Coupled with commercial graphite anode, KIBs have great potential for the next-generation large-scale… read more here.

Keywords: graphite anode; ion; electrolyte engineering; potassium ... See more keywords

Dual-Co-Solvent Electrolyte Engineering for Robust Aqueous Zinc Metal Batteries at 60 °C.

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Published in 2025 at "Small methods"

DOI: 10.1002/smtd.202501572

Abstract: Aqueous zinc metal batteries (AZMBs) with intrinsic high safety are a promising candidate for large‐scale energy storage at high temperatures. However, the aggravated water‐related side reactions (Zn corrosion, hydrogen evolution, etc.) at elevated temperatures enormously… read more here.

Keywords: aqueous zinc; electrolyte engineering; metal batteries; zinc metal ... See more keywords

Quantitative Description of Bubble Formation in Response to Electrolyte Engineering

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Published in 2023 at "Langmuir"

DOI: 10.1021/acs.langmuir.2c03488

Abstract: The green hydrogen economy is expected to play a crucial role in carbon neutrality, but industrial-scale water electrolysis requires improvements in efficiency, operation costs, and capital costs before broad deployment. Electrolysis operates at a high… read more here.

Keywords: quantitative description; description bubble; formation; electrolyte ... See more keywords

Electrolyte Engineering for Effective Seawater Splitting Based on Manganese Iron Chromium Layered Triple Hydroxides as Novel Bifunctional Electrocatalysts

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Published in 2023 at "Journal of Materials Chemistry A"

DOI: 10.1039/d2ta09984e

Abstract: Seawater splitting remain far-fetched due to interference of corrosive chlorine evolution reaction at anode. The lowering of overpotential with the help of effective electrocatalyst is one way to deal with... read more here.

Keywords: effective seawater; engineering effective; seawater; seawater splitting ... See more keywords

Electrolyte Engineering for Low-Temperature Aqueous Batteries: Strategies, Mechanisms, and Perspectives

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Published in 2025 at "Green Chemistry"

DOI: 10.1039/d5gc02967h

Abstract: Aqueous batteries offer inherent safety and environmental advantages, yet their deployment is critically constrained by severe performance degradation below 0°C, where capacity losses exceed 50-80% and complete failure occurs below... read more here.

Keywords: temperature aqueous; engineering low; electrolyte engineering; batteries strategies ... See more keywords