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The Journal of Applied Electrochemistry is a scholarly peer-reviewed journal that publishes research articles, reviews, and technical notes focusing on the field of electrochemistry and its applications.

The Journal of Electroanalytical Chemistry is a peer-reviewed scientific journal that focuses on the field of electroanalytical chemistry. This journal publishes original research articles, reviews, and technical notes that cover various aspects of electrochemistry, including the theoretical, methodological, and practical applications of electroanalytical techniques. Topics typically covered in the journal include: - Development and application of new electrochemical methods and techniques. - Studies involving electrochemical sensors and biosensors.

The Journal of Power Sources is a scientific journal that focuses on research related to power sources, including batteries, fuel cells, supercapacitors, and renewable energy technologies. It publishes original research articles, reviews, and technical notes describing advancements in the field of energy storage and conversion. The journal covers a wide range of topics including materials science, electrochemistry, device engineering, and technology integration associated with power supply systems.

The Journal of the Electrochemical Society (JES) is a peer-reviewed scientific journal that publishes research articles, reviews, and technical notes in the field of electrochemistry and solid state science.

Kolbe electrolysis, also known as Kolbe electrolysis or Kolbe reaction, is an electrochemical process that involves the oxidative decarboxylation of carboxylic acids or their salts at an anode during an electrolysis reaction. This process leads to the formation of alkenes or other organic compounds. Here's a simplified overview of how Kolbe electrolysis works: 1. **Starting materials**: The reaction typically begins with carboxylic acid or its sodium salt.

The Koutecký–Levich equation is an important equation in the field of electrochemistry that describes the relationship between the current density in an electrochemical reaction and the concentration of a reactant species, particularly in the context of finite-diffusion transport in an electrochemical system. It is often used to analyze mass transport in electrochemical systems, particularly in the study of electrodes.

A Latimer diagram is a graphical representation used in chemistry to illustrate the reduction potentials of different oxidation states of an element. It helps to visualize the relative stability of various oxidation states, along with the half-reaction equations that correspond to the conversion between those states.

The Levich constant is a term used in electrochemistry, particularly in the context of analyzing mass transport in electrochemical systems. It quantitatively relates the steady-state current (i) generated at a planar electrode to the concentration of a reactant in a solution, taking into account the effects of diffusion.

The Levich equation is used to describe the current density in electrochemical systems, particularly in the context of mass transport to an electrode surface during electrochemical reactions. It is particularly relevant for understanding processes where diffusion is the dominant mass transport mechanism, such as in rotating disk electrodes.

Linker DNA refers to the short segments of DNA that connect nucleosomes, which are the fundamental units of chromatin structure in eukaryotic cells. Nucleosomes consist of a core of histone proteins around which a segment of DNA is wrapped. The DNA that links these nucleosomes together is referred to as linker DNA. In the organization of chromatin, linker DNA plays a crucial role in the compact structuring of DNA within the nucleus.

Lithium tetrafluoroborate (LiBF₄) is an inorganic compound that is commonly used as an electrolyte salt in lithium-ion batteries and other electrochemical applications. It consists of lithium cations (Li⁺) and tetrafluoroborate anions (BF₄⁻). The tetrafluoroborate anion is characterized by its stable tetrahedral structure, where a boron atom is surrounded by four fluorine atoms.

The Lolland Hydrogen Community is a pioneering project in Denmark aimed at creating an integrated and sustainable hydrogen ecosystem on the island of Lolland. The initiative focuses on generating green hydrogen through renewable energy sources, primarily wind and solar power. The project seeks to utilize this hydrogen for various applications, including transportation, industrial processes, and energy storage.

A Luggin capillary, also known as a Luggin capillary tube or simply a Luggin tube, is a component used in electrochemical measurements, particularly in potentiometry and voltammetry. It consists of a small-diameter capillary that is used to bring a reference electrode (such as a Ag/AgCl electrode) very close to the working electrode without allowing the two to touch.

Magnetoelectrochemistry refers to the interdisciplinary field that studies the interaction between magnetic fields and electrochemical processes. This area of research combines principles from magnetism, electrochemistry, and often materials science, to explore how magnetic fields can influence electrochemical reactions, such as those that occur during battery operation, corrosion processes, and electrocatalysis.

Metal dusting is a form of accelerated corrosion that occurs primarily in high-temperature environments, particularly in industrial processes involving hydrocarbons, such as in gasification and petrochemical operations. This phenomenon leads to the degradation of metals and alloys, resulting in the formation of a fine powder-like material, which is referred to as "metal dust.

Micro pitting is a surface degradation phenomenon that occurs in rolling element bearings, gears, and other mechanical components subject to high contact stresses and alternating loads. It is characterized by the formation of small, localized wear spots or pits on the surface of the material, usually at a microscopic level. These pits can significantly affect the performance and lifespan of mechanical components by leading to increased friction, noise, and ultimately premature failure.

Microwave enhanced electrochemistry refers to a method in electrochemical processes where microwave radiation is used to enhance the efficiency and effectiveness of electrochemical reactions. This approach leverages the unique properties of microwaves, such as rapid heating and the ability to selectively energize specific molecules or ions in a solution.

Mixed metal oxide electrodes (MMO electrodes) are types of electrodes that consist of a combination of different metal oxides, typically including noble metals and transition metals. These electrodes are widely used in various electrochemical applications such as electrocatalysis, water treatment, and energy conversion technologies (like fuel cells and electrolyzers). ### Key Features and Characteristics: 1. **Composition**: MMO electrodes often include metals like ruthenium, iridium, titanium, and tantalum, among others.

Mixed potential theory is a concept used primarily in electrochemistry to describe the behavior of electrochemical systems under various conditions. The theory provides a framework for understanding and predicting the potentials and reaction rates in systems where multiple redox reactions may occur simultaneously. ### Key Aspects of Mixed Potential Theory: 1. **Mixed Potential**: In a system with more than one electrochemical reaction, the overall potential is influenced by the contributions from all the involved reactions.

Nickel(III) oxide, also known as nickel trioxide, is a chemical compound with the formula Ni₂O₃. It is an oxide of nickel in which nickel has an oxidation state of +3. This compound is characterized by its dark green to black appearance and is less common than the more stable Nickel(II) oxide (NiO). Nickel(III) oxide can be produced through various methods, including the oxidation of nickel compounds at high temperatures or through specific chemical reactions.