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Department News

Miller lab and Eastman researchers reveal new process for making anhydrides

A collaborative team from the Miller lab and Eastman has discovered a new process for making anhydrides that promises improvements in cost and sustainability.

Lu Group discovers design principle for catalysts to harvest energy from environmental oscillations

Featured on the cover of The Journal of Physical Chemistry Letters, the Lu Group introduces a geometric theoretical framework that sheds light on cyclic chemical reaction networks, such as catalysis networks, to harness energy from rapid environmental oscillations.

Pielak elected 2024 Biophysical Society Fellow

Congratulations to Gary Pielak for being named a 2024 Biophysical Society Fellow.

Researchers awarded NSF grant to support the future of semiconductors
Wei You stands outside underneath a green tree.

The award supports a collaborative project between UNC-Chapel Hill and NC State University. Researchers will develop a new short-wave infrared light camera and train a diverse group of students in using innovative technologies.

Research

New formation and fate of Isoprene SOA markers revealed by field data-constrained modeling

In this study, we showed that particulate 2-MT and 2-MG collected at multiple monitoring sites under a wide range of atmospheric and emission conditions, with concentrations spanning six orders of magnitudes, are well reproduced with an expanded isoprene-SOA scheme implemented into the Community Multiscale Air Quality (CMAQ) model.

DiffN Selection of Tandem Mass Spectrometry Precursors

Herein, a new DDA approach is proposed, DiffN, which uses the relative differential intensity of ions between two samples to selectively target species undergoing the largest fold changes for MS/MS.

Self-powered perovskite photon-counting detectors

Here we show that self-powered polycrystalline perovskite photodetectors can rival the commercial silicon photomultipliers (SiPMs) for photon counting.

Catalytic, Asymmetric Michael-Aldol Annulations via a Stereodivergent/Stereoconvergent Path Operating under Curtin-Hammett Control

A bifunctional iminophosphorane (BIMP)-catalyzed method for the synthesis of densely functionalized cyclohexanols establishes five contiguous stereocenters (diastereoselection up to >20:1, enantioselectivity up to >99:1) in a Michael/aldol domino reaction between trisubstituted electrophilic alkenes and γ-nitroketones.

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