In our group we synthesize new organic molecules as well as coordination complexes using both conventional and mechanochemical synthetic protocols and subsequently we employ non-covalent interactions (such as hydrogen- and halogen bonds) to assemble molecular building blocks into supramolecular architectures with precise dimensions, topologies, and motifs.
We are developing strategies that enable the formation of co-crystals of API’s using a variety of predesigned, inexpensive, and readily available small molecules.
Keywords:
- Functional Materials, Catalysis, and Nanochemistry
- Energy, Environment, Agriculture, and Sustainability
- Design and Synthesis of Molecules and Supramolecular Architectures
Previous work
- Organic crystal engineering
- Crystal engineering and coordination chemistry
- Polymorphism
Research:
- Synthesis of Molecular Co-crystals: A Versatile Approach to Controlling Bioavailability, Formulation, and Processing of Anti-Cancer Drugs
Keywords:
- Supramolecular chemistry of photochromic spiropyrans: using non-covalent interactions for controlling physical properties
Research: Chemistry – Studies chemical approaches to maximize the effectiveness of anti-cancer drugs.