Disclosed is a process for preparing adiponitrile from acrylonitrile in an electrolytic cell. An aqueous electrolyte comprising acrylonitrile converts to adiponitrile in the presence of a solid anode and in the absence of a solid cathode. The cathode comprises gas plasma.

Methods of making aliphatic compounds having two or more electron withdrawing groups and compositions comprising aliphatic organic compounds having one or more electron withdrawing groups. The methods are based on electrohydrodimerization of aliphatic olefinic compounds having one or more electron withdrawing groups using pulsed potential waveforms. A method may produce adiponitrile by electrolysis of acrylonitrile using pulsed waveforms. A composition may be an electrochemically produced organic phase composition. A composition may comprise one or more undesirable products, such as, for example, propionitrile, AN-derived oligomers, and the like. A composition may not have been subjected to any purification and/or separation after electrochemical production of one or more aliphatic compounds comprising two or more electron withdrawing groups.

A system and method for feeding carbon dioxide to a first cathode cavity of a first electrochemical cell, electrochemically reducing the carbon dioxide at a first cathode in the first electrochemical cell to carbon monoxide (CO), flowing the CO from the first cathode cavity to a second cathode cavity of a second electrochemical cell, and forming at least one of ethanol or ethylene from the CO at a second cathode in the second electrochemical cell. The forming of the at least one of ethanol or ethylene from the CO may involve dimerization of the CO at the second cathode to form CO dimer.

An electrochemical process produces tetraalkyl 1,2,3,4-butanetetracarboxylates having alkyl groups with 1 to 6 carbon atoms. The process employs an electrohydrodimerization of dialkyl maleates having alkyl groups having 1 to 6 carbon atoms in a reactant solution with an alcohol and a conducting salt.

Described herein are methods for the continuous preparation of 1,2-di(furan-2-yl)ethane-1,2-diol from furan-2-carbaldehyde. The methods can proceed chemically or electrochemically. In certain examples, the methods further comprise the application of a static mixer. The present methods produce 1,2-di(furan-2-yl)ethane-1,2-diol in greater yield, purity, chemoselectivity, and stereoselectivity than traditional batch methods.

Described herein are methods for the continuous preparation of 1,2-di(furan-2-yl)ethane-1,2-diol from furan-2-carbaldehyde. The methods can proceed chemically or electrochemically. In certain examples, the methods further comprise the application of a static mixer. The present methods produce 1,2-di(furan-2-yl)ethane-1,2-diol in greater yield, purity, chemoselectivity, and stereoselectivity than traditional batch methods.

The invention relates to a polymer structure (1) formed by at least a polymer, wherein said structure (1) comprises a volume (2) and a surface (3), wherein said polymer comprises a plurality of polymer chains connected by linkings, characterized by a linking density, wherein said linking density increases, particularly monotonously, from the surface (3) into the volume (2) of the polymer structure (1).

A modified electrode, manufacturing method thereof and use thereof are provided. The manufacturing method includes steps of soaking a copper substrate in a solution to obtain a BiOI/copper(I) iodide, BiOI/copper(I) iodide/metallic bismuth, and copper(I) iodide/metallic bismuth composite modified electrodes by electroless plating method. The obtained electrodes, designated as bismuth-based modified electrode, can be used for the electrohydrodimerization of acrylonitrile to synthesize adiponitrile.

Methods of making aliphatic compounds having two or more electron withdrawing groups and compositions comprising aliphatic organic compounds having one or more electron withdrawing groups. The methods are based on electrohydrodimerization of aliphatic olefinic compounds having one or more electron withdrawing groups using pulsed potential waveforms. A method may produce adiponitrile by electrolysis of acrylonitrile using pulsed waveforms. A composition may be an electrochemically produced organic phase composition. A composition may comprise one or more undesirable products, such as, for example, propionitrile, AN-derived oligomers, and the like. A composition may not have been subjected to any purification and/or separation after electrochemical production of one or more aliphatic compounds comprising two or more electron withdrawing groups.

The invention relates to a method, a device and a system for producing particularly a hydrogel (200) and for controlling an enzymatically catalyzed formation of a covalent bond in a solution, wherein said covalent bond is formed between a first compound (20) comprising a first moiety (21) and a second compound (22) comprising a second moiety (23), wherein the first and the second moiety (21, 23) are a substrate of an enzyme wherein said enzyme catalyzes the formation of a covalent bond between the first and the second moiety (21, 23), and wherein a voltage is applied to the solution for spatially controlling said formation, wherein said voltage is adjusted such that it induces electrolysis of said solution.