brozeklab
@brozeklab
materials chemistry lab at the University of Oregon studying environmental and sustainable materials, clean energy, porosity, and nanocrystals
ID: 1128718804429574144
https://brozeklab.uoregon.edu/ 15-05-2019 17:48:28
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Checkout our new collaboration with Alina Schimpf and Christopher H. Hendon! Convert thermal waste energy into electricity using electrolytes with huge charge and hence maximum solvent reorganization entropy pubs.acs.org/doi/full/10.10…
I am here because Boettcher Lab founded the OCE and aimed for the stars. I also want to thank Gary Harlow and Linqin Mu_穆林沁 for being partners in growing the electrochemistry engine we have today and brozeklab for looking for ways to collaborate from my first days in Eugene.
Unlike colloidal quantum dots, MOF particles lack traditional surface ligands but remain stable. Instead, they dissolve like polymers, proteins, and other macromolecules. Check out our collaboration with Chad Risko and Di Wu! University of Oregon University of Oregon Research pubs.acs.org/doi/full/10.10…
Colloidal MOF particles possess ordered solvation shells akin to proteins, as revealed by surface-specific spectroscopy, remaining stable without deliberate capping ligands. Pioneering study by our very own Ashley Mapile (she/her). Out now in ACS Nano! University of Oregon pubs.acs.org/doi/abs/10.102…
One of my most meaningful seminar visits was part of the 2023 Dream Chemistry Awards in IOCB Prague this past December when I had the surprise of spending time with Prof. Michl. He had such wide interests and spoke with wit and humor. His impact will be long-lived
We’re all so proud of the three newest doctors from the brozeklab and UO Chem and Biochem. Congrats Ashley Mapile (she/her) LeRoy and Jake!!
Give us a glass of water and Jiawei Huang and brozeklab team can tell you the anions inside. Conductive MOF nanoparticles as the first sensors to detect mixtures of electrochemical signals from mixtures of anions J. Am. Chem. Soc. University of Oregon pubs.acs.org/doi/10.1021/ja…
Electrochemical Anion Sensing Using Conductive Metal–Organic Framework Nanocrystals with Confined Pores | Journal of the American Chemical Society Carl Brozek Oregon Center for Electrochemistry University of Oregon #Electrochemistry #Anion #Sensing #MOF #Nanocrystals #Pores pubs.acs.org/doi/10.1021/ja…
Metal-linker bonds become more labile (and soft modes become softer) in MOF nanoparticles, leading to size-dependent phase changes. Thanks to Audrey for leading the effort and for another great collaboration with Satoshi Horike University of Oregon UO Chem and Biochem pubs.acs.org/doi/full/10.10…
Omar K. Farha, a pioneer in the rational design of metal-organic frameworks (#MOFs), has been named the new chair of Northwestern Chemistry! #Leadership #ChemistryExcellence Discover More ➡️ chemistry.northwestern.edu/about/news/202…