NSF’s ChemMatCARS Team, April 2019

From left to right: Natalie Chen, SuYin Grass Wang, Wei Bu, Yu-Sheng Chen, Theodore Betley, Mati Meron, Jason Benedict, Matthew Tirrell, Mark Schlossman, Mrinal Bera, Ka Yee Lee, Binhua Lin

NSF's ChemMatCARS

Dedicated to static and dynamic condensed matter chemistry and materials science.

Liquid Surface/Interface X-ray Scattering

Used to investigate dynamical and structural properties of surfaces and interfaces in a variety of liquid and solid systems.

Advanced Crystallography

Uses a "rapid setup" crystallography facility that allows us to rapidly switch operation to the single-crystal instrument.

Recent Publications

NSF’s ChemMatCARS operates three experimental stations in the areas of advanced small-molecule crystallography, liquid surface and interface scattering, and small to wide-angle scattering at the Advanced Photon Source (APS), the premier undulator-based synchrotron source of high-brilliance high-energy x-rays in the U.S.A. The instrumentation at NSF’s ChemMatCARS provides information that addresses a broad range of issues in chemistry and materials research. NSF’s ChemMatCARS is supported by the Divisions of Chemistry (CHE) and Materials Research (DMR), National Science Foundation, under grant number NSF/CHE- 1834750. Construction of a second beamline at NSF’s ChemMatCARS is supported by NSF grant CHE-1836674 with contributions from the Office of Multidisciplinary Activities within the Directorate of Mathematical and Physical Sciences and NSF Divisions in Chemistry (CHE), Molecular and Cellular Biology (MCB), and Chemical, Bioengineering, Environmental, and Transport Systems Engineering (CBET).

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Latest News

Liquid Interfaces Workshop was held on November 21-22, 2019.

At this workshop, attendees contributed to planning for new initiatives at NSF’s ChemMatCARS in X-ray scattering from liquid interfaces, including liquid-solid, liquid-liquid and liquid-vapor interfaces. 

NSF’s ChemMatCARS Receives $14 Million Grant from the National Science Foundation

Mark Schlossman of the Department of Physics at the University of Illinois at Chicago [https://schloss.people.uic.edu] and Matthew Tirrell, Ka Yee C. Lee, Yu-Sheng Chen, and Binhua Lin at University of Chicago received a five-year grant for $14.1 million to build a canted undulator beamline at Sector 15, APS under grant number 1836674, to develop new capabilities at NSF’s ChemMatCARS (click here for detailed story).

NSF’s ChemMatCARS Team, March 2019. Left to Right: Natalie Chen, SuYin Grass Wang, Wei Bu, Yu-Sheng Chen, Theodore Betley, Mati Meron, Jason Benedict, Matthew Tirrell, Mark Schlossman, Mrinal Bera, Ka Yee Lee, Binhua Lin

 

IME Researchers Receive $12 Million Grant for NSF’s ChemMatCARS from the National Science Foundation

Matthew Tirrell, dean of the Institute of Molecular Engineering at the University of Chicago, Mark Schlossman of the University of Illinois at Chicago, Ka Yee C. Lee of the University of Chicago, Theodore Betley of Harvard University, and Jason Benedict of the University at Buffalo, SUNY received a five-year grant for $12 million to operate and develop the National Science Foundation’s (NSF) ChemMatCARS (click here for detailed story).

NSF’s ChemMatCARS Team, May 2018. Front: Yu-Sheng Chen, Mark Schlossman, Binhua Lin, SuYin Grass Wang, Kimberly Simms, Ka Yee Lee. Back: Tieyan Chang, Mati Meron, Mrinal Bera, Jason Benedict, Wei Bu, Theodore Betley, Matthew Tirrell

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Science Highlights

In situ visualization of loading-dependent water effects in a stable metal–organic framework

December 02, 2019

Nature Chemistry (2019)

Even for MOFs that are highly stable in humid environments, a static representation of the framework structure may not be sufficient to understand the observed stability. This work has shown that the DMOF-TM framework has a dynamic and reversible structural response to water guest molecules, observed in changes in the unit cell parameters, microstrain, vibrational spectra and atomic structure. These changes manifest themselves at low guest loading and continue to change in response to guest loading.

Click here for more info

Nanosheets Synthesis under Mixed Surfactants

October 11, 2019

Chem. Mater. 2019, 31, 21, 9040-9048

Two-dimensional monocrystalline oxide nanomaterials have a great impact on material innovation and property advancement. However, creating them with fine control remains a grand challenge. Inspired by the biomineralization processes, researchers from the University of Wisconsin-Madison were able to synthesize the monocrystalline 2D nanosheets under the mix-charges amphiphilic monolayer. The growth process was monitored by in-situ grazing incidence X-ray diffractions at NSF’s ChemMatCARS.

 

DOI: 10.1021/acs.chemmater.9b03307 

https://doi.org/10.1021/acs.chemmater.9b03307

*Reprinted with permission from Chem. Mater. 2019, 31, 21, 9040-9048.  Copyright 2019  American Chemical Society.

See more science highlights

What’s New?

NSF’s ChemMatCARS is pleased to welcome new postdoc Pan Sun.  

On July 8, 2019, NSF’s beamline scientists Mati Meron and Wei Bu hosted a group of REU students from Ohio State, University of Chicago and University of IL Urbana-Champaign. 


On June 25-26, 2019, NSF’s  ChemMatCARS beamline scientist Wei Bu introduced the synchrotron facility at sector 15 to the students from the 2019 Neutron X-ray School.

NSF’s ChemMatCARS is pleased to welcome summer intern Abhishek Ravada from MaMaSELF Program, Université De Rennes 1, France. He will be working with Dr. Yu-Sheng Chen.  


On April 11, 2019, ANL hosted the annual Science Careers in Search of Women Conference (SCSW) and CARS was part of the tour. High-school girls from across the Chicago area came to explore careers in science, technology, engineering and math., Dr. Mrinal Bera of NSF’s ChemMatCARS introduced the synchrotron research at Sector 15.