1. Kansas State University
  2. »Division of Communications and Marketing
  3. »K-State Today
  4. »Nicholas D. Ball to present in chemistry departmental seminar

K-State Today

Division of Communications and Marketing
Kansas State University
128 Dole Hall
1525 Mid-Campus Drive North
Manhattan, KS 66506
785-532-2535
vpcm@k-state.edu

December 4, 2023

Nicholas D. Ball to present in chemistry departmental seminar

Submitted by Takashi Ito

Nicholas D. Ball, associate professor of chemistry at Pomona College, will present "Synthetic Strategies toward Fluorosulfurylation of Organic Molecules and Sulfur-Fluoride Exchange (SuFEx)" as a NOBCChE speaker at 1:05 p.m. Thursday, Dec. 7, in 4 King Hall.

Abstract: Sulfur-fluoride exchange, or SuFEx, chemistry is emerging as a promising synthetic tool in chemical biology, material science and synthetic chemistry. In synthesis, sulfur (VI) fluorides show unique promise as synthons in organic chemistry due their stability versus other sulfur (VI) halogen analogues. The key to the adoption of SuFEx chemistry is the development of efficient modes to synthesize and react sulfur (VI) fluorides. Research initiatives employing group two, and transition metal chemistry toward the synthesis of sulfonyl fluorides will be described. New SuFEx methods that react a broad set of S(VI) fluorides with carbon, oxygen and nitrogen-based nucleophiles toward structurally diverse S(VI) compounds will also be presented.

A focus will be on a new SuFEx reaction to synthesize nitrogen-based sulfonylated compounds from a variety of S(VI) fluorides mediated via a Lewis acidic calcium salt will be described. Under a unified set of reaction conditions, sulfonyl fluorides, fluorosulfates, and sulfamoyl fluorides can be coupled with a variety of amines to synthesis a wide array of aryl and alkyl sulfonamides, sulfamides and sulfamates in good to excellent yield. Computational and NMR kinetic studies that aim to elucidate the mechanism of Ca-activation will be discussed. Lessons learned from the mechanistic studies have led to preliminary data suggesting Ca-catalysis is possible.

Ball received his bachelor's in chemistry at Macalester College in 2005 and completed a doctorate in 2011 under Professor Melanie Sanford at the University of Michigan working with C–F and C–CF3 bond formation from high-oxidation state palladium. In 2010, attended the California Institute of Technology to pursue his postdoctoral studies with Professor David Tirrell as an NIH postdoctoral fellow. Ball started as an assistant professor at Amherst College in 2013. In 2015, Ball joined the faculty at Pomona College and is now an associate professor of chemistry with tenure.

His current research focuses on developing new methods to make and use sulfur-based molecules that can be used for drug targets, chemical probes in biology and material science. The work of his lab involves making molecules, machine learning and computational chemistry. His work features industrial, international collaborations as well as work with professors at other predominantly undergraduate institutions. Ball's honors and awards include the Henry Dreyfus Teacher-Scholar Award and the 2022 Chemical and Engineering News LGBTQ+ trailblazer. His research has been funded by the NIH, the NSF and the American Chemical Society.

In this issue

Updates from leadership
KSUnite
News and research
Events
Human resources and benefits
Kudos, publications and presentations
Technology
University life