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2022
This chapter examines electrochemical cells, which consist of two electrodes, or metallic conductors, each in contact with an electrolyte, an ionic conductor. Because many reactions involve the transfer of electrons, they can be studied (and used) by allowing them to take place in a cell equipped with electrodes, with the spontaneous reaction forcing ...
Peter Atkins +2 more
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This chapter examines electrochemical cells, which consist of two electrodes, or metallic conductors, each in contact with an electrolyte, an ionic conductor. Because many reactions involve the transfer of electrons, they can be studied (and used) by allowing them to take place in a cell equipped with electrodes, with the spontaneous reaction forcing ...
Peter Atkins +2 more
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Chemical Communications, 2020
To visualize the electrochemical reactivity and obtain the diffusion coefficient of the anode of lithium-ion batteries, we used scanning electrochemical cell microscopy (SECCM) in a glovebox.
Yasufumi Takahashi +4 more
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To visualize the electrochemical reactivity and obtain the diffusion coefficient of the anode of lithium-ion batteries, we used scanning electrochemical cell microscopy (SECCM) in a glovebox.
Yasufumi Takahashi +4 more
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Journal of Physical Chemistry Letters, 2020
Control over photophysical and chemical properties of two-dimensional transition metal dichalcogenides (2D-TMDs) is the key to advance their applications in next-generation optoelectronics. Although chemical doping and surface modification with plasmonic
L. Strange +7 more
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Control over photophysical and chemical properties of two-dimensional transition metal dichalcogenides (2D-TMDs) is the key to advance their applications in next-generation optoelectronics. Although chemical doping and surface modification with plasmonic
L. Strange +7 more
semanticscholar +1 more source
, 2020
The ability for electrochemical cells to self-charge for extended periods of time is desirable for energy storage applications. While self-oscillation is a phenomenon found in human-made dynamic systems and in nature, its appearance in electrochemical ...
M. Braga +3 more
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The ability for electrochemical cells to self-charge for extended periods of time is desirable for energy storage applications. While self-oscillation is a phenomenon found in human-made dynamic systems and in nature, its appearance in electrochemical ...
M. Braga +3 more
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Journal of Physical Chemistry Letters, 2019
Electrochemically generated bubbles are gaining increasing attention as their detrimental effects on the efficiency of electrocatalysis involving gaseous products, including hydrogen evolution reaction (HER).
Yufei Wang, Emma Gordon, H. Ren
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Electrochemically generated bubbles are gaining increasing attention as their detrimental effects on the efficiency of electrocatalysis involving gaseous products, including hydrogen evolution reaction (HER).
Yufei Wang, Emma Gordon, H. Ren
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Lithium extraction from brine through a decoupled and membrane-free electrochemical cell design
ScienceThe sustainability of lithium-based energy storage or conversion systems, e.g., lithium-ion batteries, can be enhanced by establishing methods of efficient lithium extraction from harsh brines.
Zhen Li +5 more
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Solar Energy, 1982
Abstract Semiconductor liquid junction solar cells reach 12 per cent solar to electrical and similar solar to chemical (hydrogen) conversion efficiency when made with single crystal semiconductors; they retain 2 3 of this efficiency when made with thin, chemically formed, polycrystalline semiconductor films.
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Abstract Semiconductor liquid junction solar cells reach 12 per cent solar to electrical and similar solar to chemical (hydrogen) conversion efficiency when made with single crystal semiconductors; they retain 2 3 of this efficiency when made with thin, chemically formed, polycrystalline semiconductor films.
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2013
Contents Half-reactions and electrodes 734 Brief illustration 76.1: Half-reactions 734 Brief illustration 76.2: The reaction quotient of a half-reaction 734 Varieties of cells 734 Brief illustration 76.3 ...
Peter Atkins +2 more
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Contents Half-reactions and electrodes 734 Brief illustration 76.1: Half-reactions 734 Brief illustration 76.2: The reaction quotient of a half-reaction 734 Varieties of cells 734 Brief illustration 76.3 ...
Peter Atkins +2 more
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2016
This chapter discusses electrochemical cells. The transfer of electrons is the core concept of electrochemistry, and the resulting reactions can be expressed in terms of the reaction Gibbs energy interpreted as a potential difference generated by an electrochemical cell.
Peter Atkins +2 more
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This chapter discusses electrochemical cells. The transfer of electrons is the core concept of electrochemistry, and the resulting reactions can be expressed in terms of the reaction Gibbs energy interpreted as a potential difference generated by an electrochemical cell.
Peter Atkins +2 more
openaire +1 more source
An open thermo-electrochemical cell enabled by interfacial evaporation
Journal of Materials Chemistry A, 2019An open thermo-electrochemical cell (TEC) demonstrated the parallel processes of both clean water generation and electricity generation.
Qingchen Shen +13 more
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