Maximilian N. Kopylovich mostly deals with Catalysis, Organic chemistry, Medicinal chemistry, Copper and Inorganic chemistry. The concepts of his Catalysis study are interwoven with issues in Tautomer, Cyclohexane and Hydrogen peroxide. Many of his research projects under Organic chemistry are closely connected to Metal-organic framework with Metal-organic framework, tying the diverse disciplines of science together.
His Medicinal chemistry research is multidisciplinary, relying on both Stereochemistry and Benzyl alcohol. The Copper study combines topics in areas such as Solvent free, Alkane, Microwave irradiation and Microwave assisted. His Inorganic chemistry research is multidisciplinary, incorporating elements of Selectivity, Coordination polymer, Molecule and Group.
His main research concerns Catalysis, Medicinal chemistry, Organic chemistry, Inorganic chemistry and Stereochemistry. His Catalysis research includes elements of Cyclohexane, Nuclear chemistry, Polymer chemistry and Copper. His study looks at the relationship between Cyclohexane and fields such as Cyclohexanol, as well as how they intersect with chemical problems.
His research in Medicinal chemistry intersects with topics in Nitrile, Solvent and Hydrogen bond. His biological study spans a wide range of topics, including Coordination polymer, Hydrolysis, Heteronuclear molecule, Metal ions in aqueous solution and Infrared spectroscopy. Maximilian N. Kopylovich focuses mostly in the field of Stereochemistry, narrowing it down to matters related to Cycloaddition and, in some cases, Bond cleavage.
Catalysis, Organic chemistry, Polymer chemistry, Alcohol oxidation and Combinatorial chemistry are his primary areas of study. His Catalysis research focuses on Stereoselectivity in particular. His research investigates the connection between Stereoselectivity and topics such as Nitric acid that intersect with problems in Medicinal chemistry.
His research in the fields of Alkane, Trimethylsilyl cyanide, Cobalt and Benzoic acid overlaps with other disciplines such as Terephthalic acid. His Polymer chemistry research is multidisciplinary, incorporating perspectives in Trimethylsilyl, Homogeneous catalysis, Inorganic chemistry, Aldehyde and Copper. Maximilian N. Kopylovich interconnects Tetrazole, Molecule and Catalytic oxidation in the investigation of issues within Alcohol oxidation.
Maximilian N. Kopylovich focuses on Organic chemistry, Catalysis, Combinatorial chemistry, Polymer chemistry and Thiadiazoles. He combines topics linked to Medicinal chemistry with his work on Organic chemistry. The study incorporates disciplines such as Trimethylsilyl, Sodium and Copper in addition to Catalysis.
Maximilian N. Kopylovich has included themes like Benzoic acid, Cyanohydrin, Trimethylsilyl cyanide and Aldehyde in his Polymer chemistry study. His work in Thiadiazoles covers topics such as Molecular switch which are related to areas like Coordination complex. His work deals with themes such as Supramolecular chemistry, Resonance, Intramolecular force, Stereochemistry and Hydrogen bond, which intersect with Coordination complex.
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Multinuclear Copper Triethanolamine Complexes as Selective Catalysts for the Peroxidative Oxidation of Alkanes under Mild Conditions
Alexander M. Kirillov;Maximilian N. Kopylovich;Marina V. Kirillova;Matti Haukka.
Angewandte Chemie (2005)
Chalcogen bonding in synthesis, catalysis and design of materials
Kamran T. Mahmudov;Kamran T. Mahmudov;Maximilian N. Kopylovich;M. Fátima C. Guedes da Silva;Armando J. L. Pombeiro.
Dalton Transactions (2017)
Mild peroxidative oxidation of cyclohexane catalyzed by Mono-, Di-, Tri-, Tetra- and polynuclear copper triethanolamine complexes
Alexander M. Kirillov;Maximilian N. Kopylovich;Marina V. Kirillova;Evgeny Yu. Karabach.
Advanced Synthesis & Catalysis (2006)
Non-covalent interactions in the synthesis of coordination compounds: Recent advances
Kamran T. Mahmudov;Kamran T. Mahmudov;Maximilian N. Kopylovich;M. Fátima C. Guedes da Silva;Armando J.L. Pombeiro.
Coordination Chemistry Reviews (2017)
Barbituric acids as a useful tool for the construction of coordination and supramolecular compounds
Kamran T. Mahmudov;Kamran T. Mahmudov;Maximilian N. Kopylovich;Abel M. Maharramov;Malahat M. Kurbanova.
Coordination Chemistry Reviews (2014)
Zinc(II)/ketoxime system as a simple and efficient catalyst for hydrolysis of organonitriles.
Maximilian N. Kopylovich;Vadim Yu. Kukushkin;Matti Haukka;João J. R. Fraústo da Silva.
Inorganic Chemistry (2002)
An Aqua-Soluble Copper(II)−Sodium Two-Dimensional Coordination Polymer with Intercalated Infinite Chains of Decameric Water Clusters
Yauhen Yu. Karabach;Alexander M. Kirillov;M. Fatima C. Guedes Da Silva;Maximilian N. Kopylovich.
Crystal Growth & Design (2006)
Ortho-Hydroxyphenylhydrazo-β-Diketones: Tautomery, Coordination Ability, and Catalytic Activity of Their Copper(II) Complexes toward Oxidation of Cyclohexane and Benzylic Alcohols
Maximilian N. Kopylovich;Kamran T. Mahmudov;M. Fátima C. Guedes da Silva;M. Fátima C. Guedes da Silva;Paweł J. Figiel.
Inorganic Chemistry (2011)
Copper(II) coordination polymers derived from triethanolamine and pyromellitic acid for bioinspired mild peroxidative oxidation of cyclohexane.
Yauhen Y. Karabach;Alexander M. Kirillov;Matti Haukka;Maximilian N. Kopylovich.
Journal of Inorganic Biochemistry (2008)
Facile Ni(II)/ketoxime-mediated conversion of organonitriles into imidoylamidine ligands. Synthesis of imidoylamidines and acetyl amides.
Maximilian N. Kopylovich;Armando J. L. Pombeiro;Andreas Fischer;Lars Kloo.
Inorganic Chemistry (2003)
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