Chemistry’s new ssNMR instrument: “limitless” possibilities for campus researchers

Written by
Wendy Plump, Chemistry
May 31, 2024

Marking a watershed acquisition for Princeton’s campus, the Department of Chemistry’s new solid-state Nuclear Magnetic Resonance (ssNMR) instrument—funded through an ambitious partnership with the Office of the Provost, Office of the Dean for Research, and Princeton Materials Institute (PMI)—is fully installed in the basement of Frick Lab and ready for use by researchers across campus and regionally.

Coupled with a special enhancement designed to increase sensitivity, the new instrument is one of only about 10 in the world. It will enable transformative science in research involving biological and small molecules, solar cells, catalysts, polymers, semiconductors, batteries, and soils and sediments.

"The possibilities for new discoveries and things which have never been seen before are limitless," said István Pelczer, director of the NMR facility at Frick Lab.

Richard Register, director of PMI, said he is thrilled that the instrument offers Princeton researchers new opportunities for collaboration. "The launch of the Transformative Equipment Initiative program in the Dean for Research office made this possible. We are going to be one of very few places that have this kind of capability."

"I think that’s where the biggest benefit is going to come," said Register, the Eugene Higgins Professor of Chemical and Biological Engineering, "in drawing in new researchers to use ssNMR for the first time."

Faculty members who have expressed an interest in using the new instrument range from chemistry to civil and environmental engineering, mechanical and aerospace engineering, chemical and biological engineering, geosciences, molecular biology, and electrical and computer engineering, among others.

The acquisition was funded through the Provost and Dean for Research offices’ Transformative Equipment Initiative, which was established in 2022 to support the acquisition of shared facilities.

What is NMR?

NMR is a technique that enables atomic-scale insights into the composition, structure, and dynamics of materials, with applications to molecules in the liquid, solid, or gas phases. The new instrument at Princeton Chemistry expands capabilities to prepared samples in the solid state.

Previously, chemistry’s NMR facility covered only analysis on solution-state samples, a critical limitation for many researchers working on advanced materials in the natural sciences and engineering. Insights enabled by solid-state NMR can elucidate fundamentally new correlations between atomic structures and synthetic techniques, equilibrium and excited states, and molecular-level structural changes for wide-ranging materials classes.

The instrument’s sensitivity enhancement, called dynamic nuclear polarization (DNP), also allows for more flexibility in the design of materials and experiments to understand them. It will significantly reduce an experiment’s run time: an experiment that would normally have a three-month duration, said Pelczer, can be reduced to one day.

The instrument will be available for use by Princeton faculty, researchers, undergraduate students, grad students, and postdocs. Training sessions are anticipated to take place this summer and fall, with an invitational inaugural symposium planned for the fall.

Marcella Lusardi, an assistant professor of chemical and biological engineering and the Princeton Materials Institute, has looked forward to the instrument’s installation since its funding was approved. "The research in my group focuses on designing advanced catalytic materials to solve complex challenges in sustainable chemistry. Designing these materials requires molecular-scale insight into the ways that materials surfaces are organized, and the ways those surfaces interact with molecules during catalytic processes."

"Solid-state NMR techniques capture such molecular-level information quantitatively, enabling the elucidation of fundamentally new correlations that guide rational materials design. As a result, it is crucial to my research. Bringing ssNMR with DNP techniques to campus will solidify Princeton’s position as a leader in state-of-the-art characterization facilities."

Lusardi noted that the skills developed while using the instrument will give undergraduates, graduate students, and postdocs an edge in a competitive job market.