ELECTROCHEMICAL CATALYSIS Meaning and
Definition
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Electrochemical catalysis refers to the process where chemical reactions are facilitated or accelerated by an electrode surface. It involves the use of an electrochemical cell, typically consisting of two electrodes immersed in an electrolyte solution, to drive a chemical reaction through the application of an electric current or potential difference. The electrode used for electrochemical catalysis is typically made of a conductive material, such as a metal or metal alloy, and serves as a catalyst for the desired chemical reaction.
The role of electrochemical catalysis is to lower the activation energy of the reaction, making it easier for the desired chemical transformation to occur. By applying an electric potential to the electrode surface, electrochemical catalysis can modulate the reaction kinetics, allowing for more control over the reaction rates and selectivity.
Electrochemical catalysis finds numerous applications in various fields, such as energy storage and conversion, chemical synthesis, and environmental remediation. It is widely utilized in electrochemical cells, including batteries, fuel cells, and electrolyzers, where it plays a critical role in enabling efficient energy conversion and storage.
Overall, electrochemical catalysis harnesses the power of electricity to expedite chemical reactions, offering a versatile and environmentally friendly approach to catalysis. Its ability to control reaction rates, selectivity, and energy efficiency makes it a valuable tool in the development of sustainable technologies.
Common Misspellings for ELECTROCHEMICAL CATALYSIS
- wlectrochemical catalysis
- slectrochemical catalysis
- dlectrochemical catalysis
- rlectrochemical catalysis
- 4lectrochemical catalysis
- 3lectrochemical catalysis
- ekectrochemical catalysis
- epectrochemical catalysis
- eoectrochemical catalysis
- elwctrochemical catalysis
- elsctrochemical catalysis
- eldctrochemical catalysis
- elrctrochemical catalysis
- el4ctrochemical catalysis
- el3ctrochemical catalysis
- elextrochemical catalysis
- elevtrochemical catalysis
- eleftrochemical catalysis
- eledtrochemical catalysis
- elecrrochemical catalysis
Etymology of ELECTROCHEMICAL CATALYSIS
The word "electrochemical" originates from the combination of two Greek roots: "electron" meaning amber or the concept of electricity, and "chemia" meaning art or transmutation. "Electro-" signifies the involvement of electricity or electric charge in a chemical process.
The term "catalysis" is derived from the Greek word "katalysis", meaning dissolution or loosening. It was later adopted in the late 19th century by chemists to describe the process of a substance facilitating a chemical reaction without being consumed in the process.
Therefore, "electrochemical catalysis" refers to the phenomenon where an electrical charge is utilized to boost or facilitate a chemical reaction without the charge itself being consumed.
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