His scientific interests lie mostly in Organic chemistry, Chitosan, Catalysis, Stereochemistry and Biochemistry. By researching both Organic chemistry and Aza Compounds, Christian V. Stevens produces research that crosses academic boundaries. The Chitin research Christian V. Stevens does as part of his general Chitosan study is frequently linked to other disciplines of science, such as Rhizobiaceae, therefore creating a link between diverse domains of science.
The concepts of his Chitin study are interwoven with issues in Mode of action, Antimicrobial and Biopolymer. His studies in Catalysis integrate themes in fields like Combinatorial chemistry, Shewanella oneidensis and Metathesis. Christian V. Stevens interconnects Bond formation, Free-radical addition, Hydrophosphination and Substitution reaction in the investigation of issues within Stereochemistry.
Christian V. Stevens spends much of his time researching Organic chemistry, Medicinal chemistry, Stereochemistry, Combinatorial chemistry and Catalysis. His study in Alkylation, Reactivity, Halogenation, Hydrolysis and Nucleophile is carried out as part of his studies in Organic chemistry. His Medicinal chemistry study frequently links to adjacent areas such as Alkyl.
A large part of his Alkyl studies is devoted to Aryl. Much of his study explores Stereochemistry relationship to Ring.
His primary areas of study are Organic chemistry, Combinatorial chemistry, Catalysis, Chemical engineering and Sophorolipid. His Organic chemistry study is mostly concerned with Ring-closing metathesis, Heptane, Glycerol, Propargyl and Metathesis. His studies deal with areas such as Microreactor, Reagent, Coupling reaction, Bimetallic strip and Nucleophile as well as Combinatorial chemistry.
His Catalysis study integrates concerns from other disciplines, such as Covalent bond and Triazine. His work deals with themes such as Flow, Zeolite and Polymer, which intersect with Chemical engineering. His Sophorolipid study combines topics in areas such as Micelle and Ammonium.
Nuclear chemistry, Adsorption, Combinatorial chemistry, Aqueous solution and Myosin are his primary areas of study. His Nuclear chemistry research incorporates elements of Micelle, Sodium, Carvacrol, Pulmonary surfactant and Langmuir. His study on Adsorption also encompasses disciplines like
His research integrates issues of Reagent, Atpase activity, Scaffold, Annulation and Biological activity in his study of Combinatorial chemistry. The study incorporates disciplines such as Chitosan, Molecule and Nanotechnology in addition to Aqueous solution. Chitosan is a subfield of Organic chemistry that Christian V. Stevens investigates.
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Chitosan as Antimicrobial Agent: Applications and Mode of Action
Entsar I. Rabea;Mohamed E.-T. Badawy;Christian V. Stevens;Guy Smagghe.
Ionic liquid thermal stabilities: decomposition mechanisms and analysis tools
Cedric Maton;Nils De Vos;Christian V. Stevens.
Chemical Society Reviews (2013)
Synthetic methods for azaheterocyclic phosphonates and their biological activity.
Kristof Moonen;Inge Laureyn;Christian V. Stevens.
Chemical Reviews (2004)
Recent developments in antibacterial and antifungal chitosan and its derivatives.
Arno Verlee;Stein Mincke;Christian V. Stevens.
Carbohydrate Polymers (2017)
Taming hazardous chemistry by continuous flow technology
Marine Movsisyan;Elisabeth Delbeke;Jan Berton;Claudio Battilocchio.
Chemical Society Reviews (2016)
Direct phosphonylation of aromatic azaheterocycles.
Sarah Van der Jeught;Christian V. Stevens.
Chemical Reviews (2009)
Chemical modification of inulin, a valuable renewable resource, and its industrial applications.
Christian V. Stevens;and Alessia Meriggi;Karl Booten.
Feasibility of production methods for succinic acid derivatives: a marriage of renewable resources and chemical technology
Ana Cukalovic;Christian V. Stevens.
Biofuels, Bioproducts and Biorefining (2008)
Synthesis and fungicidal activity of new N,O-acyl chitosan derivatives.
Mohamed E. I. Badawy;Entsar I. Rabea;Tina M. Rogge;Christian V. Stevens.
Stabilization of emulsions using polymeric surfactants based on inulin.
Tf Tadros;A Vandamme;B Levecke;K Booten.
Advances in Colloid and Interface Science (2004)
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