NMR (Nuclear Magnetic Resonance) spectroscopy is a powerful analytical technique that provides detailed information about the structure, dynamics, and chemical environment of molecules at the atomic ...

Fragment-based drug discovery (FBDD) has emerged as a transformative approach in medicinal chemistry by focusing on the identification of small chemical fragments that bind to biologically relevant ...

Researchers developed a new method that allows, for the first time, to elucidate the chiral structure of molecules -- the exact spatial arrangement of the atoms -- by nuclear magnetic resonance (NMR) ...

NMR spectroscopy is an analytical technique commonly used in academia and industry, and is a critical part of today’s food, chemistry, biochemistry, and pharmaceuticals research. NMR facilitates the ...

A pair of grants from the Offices of the Provost and the Dean for Research (DfR) will transform materials science, synthesis, catalysis and chemical biology research across campus through the ...

NMR spectroscopy is a powerful technique that is ideally suited to the characterization and analysis of a diverse array of chemical compounds. Unlike many other analytical techniques, NMR spectroscopy ...

NMR spectroscopy can be used to elucidate structures, quantify target compounds and enable synthesis reaction monitoring in real time. It is possible to easily integrate benchtop NMR instruments into ...

RNA plays a crucial role in every phase of the cell life cycle, with misregulation frequently resulting in disease. Recent breakthroughs in understanding RNA biochemistry, structure, and dynamics have ...

When two solutions of oppositely charged polymers (polyelectrolytes) are mixed, phase separation occurs and leads to the formation of a polymer-rich phase and a supernatant phase. The precise ...

The chirality of a molecule refers to its basic structure: Some molecules, so-called enantiomers, occur in pairs and are mirror images of each other. They differ in the way a left and a right glove do ...