NSF's ChemMatCARS

Dedicated to static and dynamic condensed matter chemistry and materials science. Learn More About ChemMatCARS

Used to investigate dynamical and structural properties of surfaces and interfaces in a variety of liquid and solid systems. Learn More About Liquid Surface At ChemMatCARS

Liquid Surface/Interface X-ray Scattering

Uses a "rapid setup" crystallography facility that allows us to rapidly switch operation to the single-crystal instrument. Learn More About Crystallography At ChemMatCARS

Advanced Crystallography

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 ChemMatCARS provides information that addresses a broad range of issues in chemistry and materials research.

News and Announcements

Congratulations Qi Wang! 2018 APS Student Poster Prize Winner

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ChemMatCARS congratulates our user, Qi Wang, for being chosen as the 2018 APS Student Poster Prize winner at the APS User Meeting. Qi's poster and presentation, entitled, "Probing Adsorption Interactions in High Valence Metal-Organic Frameworks by In Situ Single-crystal X-ray Diffraction", received a perfect score!

Congratulations Qi Wang! Job well done!

Recent Outreach Activities

USF & NSF's ChemMatCARS University of Chicago Small Molecule Crystallography School

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NSF’s ChemMatCARS and the University of South Florida (USF) hosted a workshop on small molecule X-ray crystallography on April 26-28, 2018 at USF. 24 participants including graduate students and post-docs, from 9 institutions across the US, attended the workshop.

Workshop webpage: http://chemistry.usf.edu/crystalschool/index.aspx

2018 Science in Search of Women Conference

Women In Science and Technology (WIST) at ANL hosts the Science Careers in Search of Women (SCSW) conference every year inspiring young women to pursue careers in science. The conference includes lectures, tours, career booth exhibits and mentoring. On April 19^th, ChemMatCARS hosted 30 female high school students at the 15-ID beamline. They got the opportunity to tour the beamline and learn more about the Liquid Surface Scattering, Advanced Crystallography and Anomalous Small Angle X-ray Scattering techniques.

Every year since 2016, ChemMatCARS has participated in the SCSW conference and looks forward to next year’s tour!

Hoffman Estates High School Students visit ChemMatCARS for Exemplary Student Research Program

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On March 2, 2018, ChemMatCARS conducted our Exemplary Student Research Program (ESRP) with the students from Hoffman Estates High School (HEHS). ChemMatCARS has been hosting this program since 2016 in collaboration with Wayne Oras, Jr., the Applied Technology instructor from HEHS. Students performed hands-on experiments for their proposal entitled, “ESRP: Characterizing the Structure of Self-Assembled Lead (II) Sulfide Nanoparticle Superlattices Based on Variable Ligand Surface Coverage”. This year, students had the opportunity to work with our Small Angle X-ray Scattering (SAXS) beamline scientist, Mrinal Bera, at the 15-ID beamline. Students were assigned 2 consecutive shifts, starting at 4pm on March 2^nd and ending at 8am on March 3^rd. During their beamtime, they prepped samples, ran scans, and collected data. We are excited for next year and can’t wait to see their results!

2017 Neutron X-ray School

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From August 8-10, 2017, ChemMatCARS participated in the Neutron X-ray Scattering School facilitated by APS. ChemMatCARS hosted 8 students from several institutions in the US to perform two-days of hands on experiments. Students focused on isotherm measurements, grazing incident diffraction (GID), x-ray reflectivity (XR), data retrieval, GID data analysis and XR data analysis using software created by ChemMatCARS beamline scientist, Wei Bu. The purpose of these experiments was to determine the structure and ordering of a Langmuir monolayer of phospholipid molecules, dipalmitoylphosphatidylcholine (DPPC).

Scientific Focus

The scientific focus of user activities at ChemMatCARS is the study of structure and dynamics over the range of length scales from atomic and molecular to mesoscopic. The experimental techniques available to the scientific community span a spatial resolution of sub-angstrom to micrometer and a time resolution from 50 ns to minutes. These include:

High Precision Crystallography to study charge (i.e., electron) densities, bonding, microcrystals, resonant diffraction, high-pressure (up to 10 GPa) single crystal diffraction, and transient state/photo-crystallography.

Scattering From Liquid Surfaces and Liquid-Liquid Interfaces to measure atomic, molecular, and mesoscopic ordering at interfaces using resonant and non-resonant reflectivity, grazing-incidence diffraction and small angle scattering, surface fluorescence, surface diffuse scattering, and fast techniques, such as grazing incidence diffraction in the 1D pinhole geometry.

Anomalous Small Angle X-ray scattering (ASAXS) to probe element specific structural information from materials in the length scales of few nanometers to hundreds of nanometers.

CHEMMATCARS IS SUPPORTED BY THE DIVISIONS OF CHEMISTRY AND MATERIALS RESEARCH,
NATIONAL SCIENCE FOUNDATION
UNDER GRANT NUMBER NSF/CHE-1346572.

Recent Publications

Alexander V. Polezhaev, Daniel M. Beagan, Alyssa C. Cabelof, Chun-Hsing Chen, Kenneth G. Caulton, "A substituent-tolerant synthetic approach to N/P-“loaded” heteroarenes," Dalton Trans. 47 (17), 5938-5942 (2018).
Konstantin Andreev, Michael W. Martynowycz, Mia L. Huang, Ivan Kuzmenko, Wei Bu, Kent Kirshenbaum, David Gidalevitz, "Hydrophobic interactions modulate antimicrobial peptoid selectivity towards anionic lipid membranes," BBA-Biomembranes 1860 (6), 1414-1423 (2018).
D. Phelan, F. Han, A. Lopez-Bezanilla, M.J. Krogstad, Y. Gim, Y. Rong, J. Zhang, D. Parshall, H. Zheng, S.L. Cooper, M. Feygenson, Wenge Yang, Yu-Sheng Chen, "Structural properties of barium stannate," J. Solid State Chem. 262, 142-148 (2018).
Rumpa Pal, Stefan Mebs, Ming W. Shi, Dylan Jayatilaka, Joanna M. Krzeszczakowska, Lorraine A. Malaspina, Michal Wiecko, Peter Luger, Malte Hesse, Yu-Sheng Chen, Jens Beckmann, Simon Grabowsky, "Linear MgCp*₂ vs Bent CaCp*₂: London Dispersion, Ligand-Induced Charge Localizations, and Pseudo-Pregostic C–H···Ca Interactions," Inorg. Chem. 57 (9), 4906-4920 (2018).
Amanda M. Pluntze, Eric V. Bukovsky, Matthew R. Lacroix, Brian S. Newell, Christopher D. Rithner, Steven H. Strauss, "Deca-B-fluorination of diammonioboranes. Structures and NMR characterization of 1,2-, 1,7-, and 1,12-B₁₂H₁₀(NH₃)₂ and 1,2-, 1,7-, and 1,12-B₁₂F₁₀(NH₃)₂," J. Fluorine Chem. 209, 33-42 (2018).
Guangxu Lan, Yuan-Yuan Zhu, Samuel S. Veroneau, Ziwan Xu, Daniel Micheroni, Wenbin Lin, "Electron Injection from Photoexcited Metal–Organic Framework Ligands to Ru₂ Secondary Building Units for Visible-Light-Driven Hydrogen Evolution," J. Am. Chem. Soc. 140 (16), 5326-5329 (2018).
Hong Zheng, Junjie Zhang, Constantinos C. Stoumpos, Yang Ren, Yu-Sheng Chen, Rebecca Dally, Stephen D. Wilson, Zahirul Islam, J.F. Mitchell, "Controlled vapor crystal growth of Na₄Ir₃O₈: A three-dimensional quantum spin liquid candidate," Phys. Rev. Mater. 2 (4), 043403-1-043403-7 (2018).
Tyler J. Whittemore, Agustin Millet, Hannah J. Sayre, Congcong Xue, Brian S. Dolinar, Eryn G. White, Kim R. Dunbar, Claudia Turro, "Tunable Rh₂(II,II) Light Absorbers as Excited-State Electron Donors and Acceptors Accessible with Red/Near-Infrared Irradiation," J. Am. Chem. Soc. 140 (15), 5161-5170 (2018).
Bin Wang, Tie-yan Chang, Zhao Jiang, Jin-jia Wei, Yong-hai Zhang, Sen Yang, Tao Fang, "Catalytic dehydrogenation study of dodecahydro-N-ethylcarbazole by noble metal supported on reduced graphene oxide," Int. J. Hydro. Energy 43 (15), 7317-7325 (2018).
Hyun Chang Kim, Davis Q. Arick, You-Yeon Won, "Air–Water Interfacial Properties of Chloroform-Spread versus Water-Spread Poly((d,l-lactic acid-co-glycolic acid)-block-ethylene glycol) (PLGA-PEG) Polymers," Langmuir 34 (16), 4874-4887 (2018). DOI: 10.1021/acs.langmuir.8b00566

Click here for full list of publications

Events

Science Highlights

η2-SO2 Linkage Photoisomer of an Osmium Coordination Complex

We report the discovery of an η2-SO2 linkage photoisomer in the osmium pentaammine coordination complex, [Os(NH3)5(SO2)][Os(NH3)5(HSO3)]Cl4 (1). Its dark- and light-induced crystal structures are determined via synchrotron X-ray crystallography, at 100 K, where the photoinduced state is metastable in a single crystal that has been stimulated by 505 nm light for 2.5 h.

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Two-Step Adsorption of PtCl62– Complexes at a Charged Langmuir Monolayer: Role of Hydration and Ion Correlations----[J. Phys. Chem. C, 2017, 121, pp 25377–25383]

Anion exchange at positively charged interfaces plays an important role in a variety of physical and chemical processes. However, the molecular-scale details of these processes, especially with heavy and large anionic complexes, are not well-understood. We studied the adsorption of PtCl62–anionic complexes to floating DPTAP monolayers in the presence of excess Cl– as a function of the bulk chlorometalate concentration. This system aims to simulate the industrial conditions for heavy metal separations with solvent extraction.

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Mixing Behavior in Binary Anionic Gemini Surfactant–Perfluorinated Fatty Acid Langmuir Monolayers----[Langmuir, 2017, 33, pp 10205-10215]

The miscibility and film structure of mixed Langmuir monolayer films composed of an anionic gemini N,N,N′,N′-dialkyl-N,N′-diacetate ethylenediamine surfactant (Ace(12)-2-Ace(12)) with perfluorotetradecanoic acid (C13F27COOH; PF) have been investigated using a variety of thermodynamic and structural characterization methods. The two film components were found to be miscible in monolayers at the air–water interface over a range of compositions and at all but the lowest surface pressures, with attractive interactions occurring between the two components.

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Atomic Number Dependent “Structural Transitions” in Ordered Lanthanide Monolayers: Role of the Hydration Shell---- [Langmuir, 2017, 33, pp 1412-1418]

When lanthanide ions are present in the aqueous subphase of a floating monolayer (Langmuir film), the ions attracted to the interface will in many cases form commensurate and/or incommensurate two-dimensional structures. These lattices depend not only on the molecules forming the monolayer, but also on the atomic number of the lanthanide, with a sudden change between the lattice formed by lighter ions and that formed by heavier ions under a given monolayer.

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Exciton Migration and Amplified Quenching on Two-Dimensional Metal–Organic Layers----[J. Am. Chem. Soc., 2017, 139 (20), pp 7020–7029]

The dimensionality dependence of resonance energy transfer is of great interest due to its importance in understanding energy transfer on cell membranes and in low-dimension nanostructures. Light harvesting two-dimensional metal–organic layers (2D-MOLs) and three-dimensional metal–organic frameworks (3D-MOFs) provide comparative models to study such dimensionality dependence with molecular accuracy. The scientists at the Xiamen University, China and the University of Chicago, USA report the construction of 2D-MOLs and 3D-MOFs from a donor ligand and a doped acceptor ligand.

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NSF's ChemMatCARS