The goal of Advanced Synthesis & Catalysis is to stimulate and accelerate that process through the invention and use of effective synthetic methods and strategies in organic, bioorganic, pharmaceutical, natural product, macromolecular, and materials chemistry. Synthetic research may aim to produce organic materials, natural products, drugs, macromolecules, and more. Advanced Synthesis & Catalysis covers all topics of interest to the practical synthetic chemist, including synthesis design, reaction techniques, separation science, and process development. Metal complex- or enzyme-based catalytic methods are becoming more and more important in achieving synthetic efficiency. A metal, a ligand, an activator, and a deactivator are all components of catalytic systems. To effectively handle today's energy and resource utilisation issues, catalyst design and development must be efficient.
Title : Distant binuclear vanadium V(II) cationic sites in zeolites and their reactivity
Jiri Dedecek, J Heyrovsky Institute of Physical Chemistry , Czech Republic
Title : Oxidation of methane to methanol over pairs of transition metal ions stabilized in the zeolite matrices
Jiri Dedecek, J Heyrovsky Institute of Physical Chemistry , Czech Republic
Title : The Concept and Implications of Low Carbon Green Growth
Dai Yeun Jeong, Asia Climate Change Education Center, Korea, Republic of
Title : Memory characteristics and diffusionless phase transformations in shape memory alloys
Osman Adiguzel, Firat University, Turkey
Title : The Fe PNP 15 H2O catalyst reduction catalytic test and its valorisation as acid catalyst to the methylal synthesis
Rabeharitsara Andry Tahina, GPCI-ESPA Antananarivo University, Madagascar