Julia A. Kalow

Total Page:16

File Type:pdf, Size:1020Kb

Julia A. Kalow JULIA A. KALOW Department of Chemistry Northwestern University work: (847) 467-4972 2145 Sheridan Road [email protected] Evanston, IL 60208-3113 http://sites.northwestern.edu/kalowlab/ PROFESSIONAL EXPERIENCE Assistant Professor of Chemistry, Northwestern University 2016–present • Research interests: polymer chemistry, synthetic methodology, photochemistry, catalysis, physical organic chemistry, tissue engineering, sustainable polymers, organic materials Ruth L. Kirschstein Postdoctoral Fellow, Massachusetts Institute of Technology 2013–2016 Advisor: Professor Timothy M. Swager • Developed an efficient synthesis of telechelic P3HT and a versatile strategy to prepare miktoarm branched polymers based on ring-opening metathesis polymerization. • Studied the self-assembly of novel architectures of conjugated polymers in solution and in bulk. • Designed responsive emulsions and developed strategies for the use of tunable complex emulsions in enzyme sensing. Graduate Research Assistant, Princeton University, Department of Chemistry 2008–2013 Advisor: Professor Abigail G. Doyle Thesis title: Catalytic strategies for asymmetric nucleophilic fluorination using a latent HF source: Development and mechanistic investigations • Initiated a program in asymmetric catalytic nucleophilic fluorination in the Doyle lab and introduced the use of benzoyl fluoride as a latent HF source for C–F bond formation. • Discovered key mechanistic insights into cooperative catalysis in the fluorination reactions that have led to additional projects, including selective radiofluorination. Intern, Merck Research Laboratories, Medicinal Chemistry, Boston, MA Summer 2007 • Investigated metal-catalyzed trifluoromethylation methods (with Dr. Jed Hubbs). Undergraduate Researcher, Columbia University, Department of Chemistry 2005–2008 Advisor: Professor James L. Leighton • Participated in studies toward the synthesis of isocyclocitrinol A (with Dr. Arash Soheili). • Developed an enantioselective imino-Nazarov rearrangement (with Dr. Gregory Notte). EDUCATION Princeton University, Princeton, NJ 2008–2013 Ph.D., Chemistry Columbia University, New York, NY 2004–2008 B.A. with honors, Chemistry and Creative Writing, summa cum laude AWARDS AND HONORS Marion Milligan Mason Award for Women in the Chemical Sciences, AAAS 2021 Julia Kalow: curriculum vitae 2 Organic Reactions Lecturer, Hope College 2019 RCSA Scialog Fellow: Chemical Machinery of the Cell 2019 Arthur K. Doolittle Award, PMSE 2019 NSF CAREER Award 2019 PMSE Young Investigator 2019 Searle Fellows Program, Searle Center for Advancing Learning and Teaching 2017-2018 3M Non-Tenured Faculty Award 2018 Thieme Chemistry Journal Award 2018 Young Investigator Award, Air Force Office of Scientific Research 2017 Rising Stars in Chemistry Symposium, invitee, University of Chicago 2015 Ruth L. Kirschstein NIH NRSA Postdoctoral Fellowship 2013–2016 Charlotte Elizabeth Procter Honorific Fellowship, Princeton University 2012–2013 ACS Division of Organic Chemistry Graduate Fellowship, sponsored by Pfizer 2011–2012 Third-Year Seminar Award, Department of Chemistry, Princeton University 2011 Bristol-Myers Squibb Endowed Fellowship in Synthetic Organic Chemistry 2010 National Science Foundation Pre-Doctoral Fellowship 2008–2011 Hugh Scott Taylor Award, Princeton University 2008–2012 Salutatorian, Columbia College 2008 Karen Osney Brownstein Prize for Creative Writing, Columbia College 2008 Phi Beta Kappa, Columbia College 2007 Barry M. Goldwater Scholarship, Honorable Mention 2007 Pfizer Summer Undergraduate Research Fellowship 2006 PUBLICATIONS (undergraduate co-authors are underlined) https://www.ncbi.nlm.nih.gov/myncbi/1Dqqd43Cbpcwzj/bibliography/public/ Independent career 13. Ishibashi, J. S. A.; Pierce, I. C.; Chang, A. B.; Zografos, A.; Fang, Y.; Weigand, S. J.; Bates, F. S. Kalow, J. A.* “Mechanical and structural consequences of associative dynamic cross-linking in acrylic diblock copolymers.” Macromolecules, in revision. [ChemRXiv, DOI:10.26434/chemrxiv.10000232] 12. Lin, T.-S.; Rebello, N.; Beech, H. K.; Wang, Z.; El-Zaatari, B.; Lundberg, D.; Johnson, J. A.; Kalow, J. A.; Craig, S. L.; Olsen, B. D.* “PolyDAT: a generic data schema for polymer characterization.” J. Chem. Inf. Model., accepted. [DOI: 10.1021/acs.jcim.1c00028] • Selected for ACS Editor’s Choice. 11. Padgaonkar, S.;† Eckdahl, C. T.;† Sowa, J. K.; López-Arteaga, R.; Westmoreland, D. E.; Woods, E. F.; Irgen- Gioro, S.; Nagasing, B.; Seideman, T.; Hersam, M. C.; Kalow, J. A.;* Weiss, E. A.* Nano Lett. 2020, 21, 854– 860. [DOI: 10.1021/acs.nanolett.0c04611] (†equal contribution) 10. Accardo, J. V.; McClure, E. R.; Mosquera, M. A.; Kalow, J. A.* “Using visible light to tune boronic acid–ester equilibria.” J. Am. Chem. Soc. 2020, 142, 19969–19979. [DOI: 10.1021/jacs.0c08551]. [ChemRXiv DOI:10.26434/chemrxiv.12756023] • Highlighted in the December 4 issue of Science, “Dynamic control of boron esters”. 9. Jung, D.; † Das, P.; † Atilgan, A.; Li, P.; Hupp, J. T.; Islamoglu, T.; Kalow, J. A.;* Farha, O. K.* “Reactive porous polymers for detoxification of a chemical warfare agent simulant.” Chem. Mater. 2020, 32, 9299–9306. [DOI: 10.1021/acs.chemmater.0c03160]. (†equal contribution) Julia Kalow: curriculum vitae 3 8. Review: Woods, E. F.;† Berl, A. J.; † Kalow, J. A.* “Advances in the synthesis of π-conjugated polymers by photopolymerization.” ChemPhotoChem 2020. (†equal contribution) [DOI:10.1002/cptc.202000212] 7. Editorial: Bowman, C.; Du Prez, P.; Kalow, J. A. “Introduction to chemistry for covalent adaptable networks.” Polym. Chem. 2020, 11, 5295-5296. [DOI:10.1039/d0py90102d] 6. El-Zaatari, B. M.; Ishibashi, J. S. A.; Kalow, J. A.* “Cross-linker control of vitrimer flow.” Polym. Chem., 2020, 11, 5339–5345. [DOI:10.1039/D0PY00233J] [ChemRXiv DOI: 10.26434/chemrxiv.11464968] • Featured on the back cover. 5. Woods, E. F.; Berl, A. J.; Kalow, J. A.* “Photocontrolled synthesis of n-type conjugated polymers.” Angew. Chem. Int. Ed., 2020, 59, 6062–6067. [DOI:10.1002/anie.201915819] [ChemRXiv DOI:10.26434/chemrxiv.8378405] • Highlighted in ChemistryViews, “Lighting the way to conjugated polymers”. 4. Lin, T.-S.; Coley, C. W.; Mochigase, H.; Beech, H. K.; Wang, W.; Wang, Z.; Woods, E.; Craig, S. L.; Johnson, J. A.; Kalow, J. A.; Jensen, K. F.; Olsen B. D.* “BigSMILES: A structurally-based line notation for describing macromolecules.” ACS Cent. Sci. 2019, 5, 1523–1531. [DOI:10.1021/acscentsci.9b00476] • Highlighted by MIT News, “Notation system allows scientists to communicate polymers more easily”, and in C&EN, “BigSMILES: Machine-readable notation goes polymeric”. • Open source tools at GitHub. 3. Accardo, J. V.; Kalow, J. A.* “Reversibly Tuning Hydrogel Stiffness through Photocontrolled Dynamic Covalent Crosslinks.” Chem. Sci., 2018, 9, 5987–5993. [DOI:10.1039/C8SC02093K] • Highlighted by Associate Editor Luis Campos [link]. 2. Ishibashi, J. S. A.; Kalow, J. A.* “Vitrimeric Silicone Elastomers Enabled by Dynamic Meldrum’s Acid-Derived Crosslinks.” ACS Macro Lett., 2018, 7, 482–486. [DOI:10.1021/acsmacrolett.8b00166] 1. Wang, X.; Kalow, J. A.* “Rapid aqueous photouncaging by red light.” Org. Lett., 2018, 20, 1716–1719. [DOI:10.1021/acs.orglett.8b00100] Mentored research 12. Zarzar, L. D.; Kalow, J. A.; He, X.; Walish, J. J.; Swager, T. M. “Optical Visualization and Quantification of Enzyme Activity using Dynamic Droplet Lenses.” Proc. Natl. Acad. Sci. 2017, 114, 3821–3825. 11. Sha, S.-C.; Zhu, R.; Herbert, M.; Kalow, J. A.; Swager, T. M. “Chemical Warfare Simulant-Responsive Polymer Nanocomposites: Synthesis and Evaluation.” J. Poly. Sci. A Polym. Chem. 2017, 55, 3034–3040. • Invited contribution in honor of Bob Grubbs’ 75th birthday. 10. Nagelberg, S.; Zarzar L. D.; Nicolas, N.; Subramanian, K.; Kalow, J. A.; Sresht, V.; Blankschtein, D.; Barbastathis, G.; Kreysing, M.; Swager, T. M.; Kolle, M. “Reconfigurable and Responsive Droplet-based Compound Micro-Lenses.” Nature Commun. 2017, 8, 14673. 9. Gray, E. E.; Nielsen, M. K.; Choquette, K. A.; Kalow, J. A.; Graham, T. J. A.; Doyle, A. G. “Nucleophilic (Radio)Fluorination of α-Diazocarbonyl Compounds Enabled by Copper-Catalyzed H–F Insertion.” J. Am. Chem. Soc. 2016, 138, 10802–10805. 8. Kalow, J. A.; Swager, T. M. “Synthesis of Miktoarm Branched Conjugated Copolymers by ROMPing In and Out.” ACS Macro Lett. 2015, 4, 1229–1233. Julia Kalow: curriculum vitae 4 7. Zarzar, L. D.; Sresht, V.; Sletten, E. M.; Kalow, J. A.; Blankschtein, D.; Swager, T. M. “Dynamic Reconfiguration of Complex Emulsions via Tunable Interfacial Tensions.” Nature 2015, 518, 520–524. • Featured in Chemical and Engineering News and MIT news. 6. Kalow, J. A.; Doyle, A. G. “34.9.2. b-Fluoro Alcohols (Update 2013).” Sci. Synth. 2013, 4, 417–467. • Invited contribution. 5. Kalow, J. A.; Doyle, A. G. “Enantioselective fluoride ring opening of aziridines enabled by cooperative Lewis acid catalysis.” Tetrahedron 2013, 69, 5702–5709. • Invited paper for Tetrahedron Young Investigator Award Symposium-in-Print in honor of Melanie Sanford. • Highlighted in SYNFACTS (2013, Issue 9). 4. Kalow, J. A.; Schmitt, D. E.; Doyle, A. G. “Synthesis of β-Fluoroamines by Lewis Base Catalyzed Hydrofluorination of Aziridines.” J. Org. Chem. 2012, 77, 4177–4183. 3. Shaw, T. W.; Kalow, J. A.; Doyle, A. G. “Fluoride ring-opening kinetic resolution of terminal epoxides: preparation of (S)-2-fluoro-1-phenylethanol.” Org. Synth. 2012, 89, 9–18. 2. Kalow, J. A.; Doyle, A. G. “Mechanistic investigations of cooperative catalysis in the enantioselective fluorination of epoxides.”
Recommended publications
  • Julia A. Kalow
    JULIA A. KALOW Department of Chemistry Northwestern University Technological Institute, M290 (847) 467-4972 2145 Sheridan Rd [email protected] Evanston, IL 60208 http://sites.northwestern.edu/kalowlab/ RESEARCH EXPERIENCE Assistant Professor, Northwestern University, Department of Chemistry 2016–present Ruth L. Kirschstein Postdoctoral Fellow, Massachusetts Institute of Technology 2013–2016 Advisor: Professor Timothy M. Swager • Developed an efficient synthesis of telechelic P3HT and a versatile strategy to prepare miktoarm branched polymers based on ring-opening metathesis polymerization. • Studied the self-assembly of novel architectures of conjugated polymers in solution and in bulk. • Collaborated with a team of researchers studying tunable complex emulsions and applied these emulsions to enzyme sensing. • Mentored a visiting undergraduate student from Tianjin University (Xinping He). Graduate Research Assistant, Princeton University, Department of Chemistry 2008–2013 Advisor: Professor Abigail G. Doyle Thesis title: Catalytic strategies for asymmetric nucleophilic fluorination using a latent HF source: Development and mechanistic investigations • Initiated a program in asymmetric catalytic nucleophilic fluorination in the Doyle lab and introduced the use of benzoyl fluoride as a latent HF source for C–F bond formation. • Discovered key mechanistic insights into cooperative catalysis in the fluorination reactions that have led to additional projects, including selective radiofluorination. • Mentored an undergraduate chemistry major (Dana Schmitt, class of 2012). Intern, Merck Research Laboratories, Medicinal Chemistry, Boston, MA Summer 2007 • Investigated metal-catalyzed trifluoromethylation methods (with Dr. Jed Hubbs). Undergraduate Researcher, Columbia University, Department of Chemistry 2005–2008 Advisor: Professor James L. Leighton • Participated in studies toward the synthesis of isocyclocitrinol A (with Dr. Arash Soheili). • Developed an enantioselective imino-Nazarov rearrangement (with Dr.
    [Show full text]
  • Call for Papers | 2022 MRS Spring Meeting
    Symposium CH01: Frontiers of In Situ Materials Characterization—From New Instrumentation and Method to Imaging Aided Materials Design Advancement in synchrotron X-ray techniques, microscopy and spectroscopy has extended the characterization capability to study the structure, phonon, spin, and electromagnetic field of materials with improved temporal and spatial resolution. This symposium will cover recent advances of in situ imaging techniques and highlight progress in materials design, synthesis, and engineering in catalysts and devices aided by insights gained from the state-of-the-art real-time materials characterization. This program will bring together works with an emphasis on developing and applying new methods in X-ray or electron diffraction, scanning probe microscopy, and other techniques to in situ studies of the dynamics in materials, such as the structural and chemical evolution of energy materials and catalysts, and the electronic structure of semiconductor and functional oxides. Additionally, this symposium will focus on works in designing, synthesizing new materials and optimizing materials properties by utilizing the insights on mechanisms of materials processes at different length or time scales revealed by in situ techniques. Emerging big data analysis approaches and method development presenting opportunities to aid materials design are welcomed. Discussion on experimental strategies, data analysis, and conceptual works showcasing how new in situ tools can probe exotic and critical processes in materials, such as charge and heat transfer, bonding, transport of molecule and ions, are encouraged. The symposium will identify new directions of in situ research, facilitate the application of new techniques to in situ liquid and gas phase microscopy and spectroscopy, and bridge mechanistic study with practical synthesis and engineering for materials with a broad range of applications.
    [Show full text]
  • 0900 on Monday, July 13 Through 1700 on Wednesday, July 15, 2020
    0900 on Monday, July 13 through 1700 on Wednesday, July 15, 2020 Subarea Topic Speaker Photonic Submillisecond-response Liquid Crystal Spatial Light Shin-Tson Wu Materials Modulators University of Central Florida Photonic Xiong Gong Solution-Processed Infrared Polymer Photodetectors Materials University of Akron Exploration of Carbon-Based Hybrid Nanoarchitectures Photonic Ya-Ping Sun as a Unique Platform for Managing Excited State Materials Clemson University Energies and Processes Aleks Rebane Photonic Femtosecond Laser Induced Macro-Molecular Self- Montana State University Materials Assembly Bozeman Photonic High Detectivity Organic Photodetectors with Bernard Kippelen Materials Ultrabroadband Spectral Response Georgia Tech Jinsong Huang Photonic Grain and Interface Engineering for High Efficiency University of North Carolina, Materials Hybrid Perovskite Solar Cells Chapel Hill Photonic Parag Deotare (YIP) Nanoscale Exciton-Mechanical Systems (NEXMS) Materials University of Michigan Photonic (YIP) Structure-Photophysics-Function Relationship of He Wang Materials Perovskite Materials University of Miami Jason Azoulay Photonic Modular Conjugated Polymers for Mid-Infrared University of Southern Materials Photonic Applications Mississippi Photonic Molecular Engineering Hybrid Perovskite Quantum Xiaodong Xu, Alex Jen Materials Wells for Nanophotonics University of Washington Effects of Redox, Molecular, and Ionic Dopants on the Seth Marder; Henry Snaith Photonic Structure and Electronic Behavior of Haloplumbate Georgia Tech ; University
    [Show full text]
  • Kalowjulia CV Long
    JULIA A. KALOW Department of Chemistry Northwestern University work: (847) 467-4972 2145 Sheridan Road [email protected] Evanston, IL 60208-3113 http://sites.northwestern.edu/kalowlab/ PROFESSIONAL EXPERIENCE Assistant Professor of Chemistry, Northwestern University 2016–present • Research interests: polymer chemistry, synthetic methodology, photochemistry, physical organic chemistry, tissue engineering, sustainable polymers, organic materials Ruth L. Kirschstein Postdoctoral Fellow, Massachusetts Institute of Technology 2013–2016 Advisor: Professor Timothy M. Swager • Developed an efficient synthesis of telechelic P3HT and a versatile strategy to prepare miktoarm branched polymers based on ring-opening metathesis polymerization. • Studied the self-assembly of novel architectures of conjugated polymers in solution and in bulk. • Designed responsive emulsions and developed strategies for the use of tunable complex emulsions in enzyme sensing. Graduate Research Assistant, Princeton University, Department of Chemistry 2008–2013 Advisor: Professor Abigail G. Doyle Thesis title: Catalytic strategies for asymmetric nucleophilic fluorination using a latent HF source: Development and mechanistic investigations • Initiated a program in asymmetric catalytic nucleophilic fluorination in the Doyle lab and introduced the use of benzoyl fluoride as a latent HF source for C–F bond formation. • Discovered key mechanistic insights into cooperative catalysis in the fluorination reactions that have led to additional projects, including selective radiofluorination.
    [Show full text]
  • Working with Hazardous Chemicals
    A Publication of Reliable Methods for the Preparation of Organic Compounds Working with Hazardous Chemicals The procedures in Organic Syntheses are intended for use only by persons with proper training in experimental organic chemistry. All hazardous materials should be handled using the standard procedures for work with chemicals described in references such as "Prudent Practices in the Laboratory" (The National Academies Press, Washington, D.C., 2011; the full text can be accessed free of charge at http://www.nap.edu/catalog.php?record_id=12654). All chemical waste should be disposed of in accordance with local regulations. For general guidelines for the management of chemical waste, see Chapter 8 of Prudent Practices. In some articles in Organic Syntheses, chemical-specific hazards are highlighted in red “Caution Notes” within a procedure. It is important to recognize that the absence of a caution note does not imply that no significant hazards are associated with the chemicals involved in that procedure. Prior to performing a reaction, a thorough risk assessment should be carried out that includes a review of the potential hazards associated with each chemical and experimental operation on the scale that is planned for the procedure. Guidelines for carrying out a risk assessment and for analyzing the hazards associated with chemicals can be found in Chapter 4 of Prudent Practices. The procedures described in Organic Syntheses are provided as published and are conducted at one's own risk. Organic Syntheses, Inc., its Editors, and its Board of Directors do not warrant or guarantee the safety of individuals using these procedures and hereby disclaim any liability for any injuries or damages claimed to have resulted from or related in any way to the procedures herein.
    [Show full text]
  • Julia A. Kalow
    JULIA A. KALOW Department of Chemistry Northwestern University work: (847) 467-4972 2145 Sheridan Road [email protected] Evanston, IL 60208-3113 http://sites.northwestern.edu/kalowlab/ PROFESSIONAL EXPERIENCE Assistant Professor of Chemistry, Northwestern University 2016–present • Research interests: polymer chemistry, synthetic methodology, photochemistry, catalysis, physical organic chemistry, tissue engineering, sustainable polymers, organic materials Ruth L. Kirschstein Postdoctoral Fellow, Massachusetts Institute of Technology 2013–2016 Advisor: Professor Timothy M. Swager Graduate Research Assistant, Princeton University, Department of Chemistry 2008–2013 Advisor: Professor Abigail G. Doyle Thesis title: Catalytic strategies for asymmetric nucleophilic fluorination using a latent HF source: Intern, Merck Research Laboratories, Medicinal Chemistry, Boston, MA Summer 2007 Undergraduate Researcher, Columbia University, Department of Chemistry 2005–2008 Advisor: Professor James L. Leighton EDUCATION Princeton University, Princeton, NJ 2008–2013 Ph.D., Chemistry Columbia University, New York, NY 2004–2008 B.A. with honors, Chemistry and Creative Writing, summa cum laude AWARDS AND HONORS Camille Dreyfus Teacher-Scholar Award 2021 Alfred P. Sloan Research Fellowship 2021 Marion Milligan Mason Award for Women in the Chemical Sciences, AAAS 2021 Organic Reactions Lecturer, Hope College 2019 RCSA Scialog Fellow: Chemical Machinery of the Cell 2019 Arthur K. Doolittle Award, PMSE 2019 NSF CAREER Award 2019 PMSE Young Investigator 2019
    [Show full text]
  • 2013 NOS Book COLOR Final
    43 rd National Organic Chemistry Symposium Statue of George Washington outside Meany Hall looking west to the Olympic Mountains. Photo courtesy of Loyd C. Heath. University of Washington Seattle, Washington June 23-27, 2013 For information on the Division and other items of interest, visit our website: http://organicdivision.org Graduate Research Symposium (GRS) The GRS provides an opportunity for 50-75 graduate students in organic chemistry to interact with leaders from academia, industry, various funding agencies, and publishers at a single venue will take place this year at the University of Delaware on July 25–28. Watch the monthly DOC newsletters for the call for applications for 2014. Technical Achievement in Organic Chemistry (TAOC) Awards Nominations for the TAOC Awards to recognize outstanding contributions to the field of organic chemistry from accomplished Junior-level chemists (i.e., those who do not have a Ph.D. degree or equivalent). Awards are given at the ACS Meeting. Nominations typically open late fall and are accepted through the online nomination form until mid January. Travel Awards Travel awards ($600 each) for graduate students, undergraduates, and faculty at PUIs for travel to ACS National Meetings to present their work within the Organic Division's Symposia/Poster Sessions. Application deadlines for National Meetings will typically be November 15th for the Spring meeting and May 1st for the Fall Meeting. Videos: Eminent Organic Chemists, The Human Side Chemical historian Jeffrey I. Seeman has conducted a series of video interviews with prominent organic chemists (to date, 15 have been released). One goal of these interviews was to reveal the human side of these scientists by exploring their values, and breadth of experiences.
    [Show full text]
  • Formation of Alternating Trans-A-Alt-B Copolymers Through Ring-Opening Metathesis Polymerization Initiated by Molybdenum Imido Alkylidene Complexes
    Formation of Alternating trans-A-alt-B Copolymers through Ring-Opening Metathesis Polymerization Initiated by Molybdenum Imido Alkylidene Complexes The MIT Faculty has made this article openly available. Please share how this access benefits you. Your story matters. Citation Jeong, Hyangsoo, Jeremy M. John, and Richard R. Schrock. “Formation of Alternating trans-A-alt-B Copolymers through Ring- Opening Metathesis Polymerization Initiated by Molybdenum Imido Alkylidene Complexes.” Organometallics 34.20 (2015): 5136–5145. As Published http://pubs.acs.org/doi/full/10.1021/acs.organomet.5b00709 Publisher American Chemical Society (ACS) Version Author's final manuscript Citable link http://hdl.handle.net/1721.1/105182 Terms of Use Article is made available in accordance with the publisher's policy and may be subject to US copyright law. Please refer to the publisher's site for terms of use. Formation of Alternating trans-A-alt-B Copolymers Through Ring-Opening Metathesis Polymerization Initiated by Molybdenum Imido Alkylidene Complexes Hyangsoo Jeong, Jeremy M. John, Richard R. Schrock* Department of Chemistry 6-331, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, United States email: [email protected] Abstract Ring-opening metathesis polymerization (ROMP) is used to prepare trans-poly(A-alt-B) polymers from a 1:1 mixture of A and B where A is a cyclic olefin such as cyclooctene (A1) or cycloheptene (A2) and B is a large norbornadiene or norbornene derivative such as 2,3- dicarbomethoxy-7-isopropylidenenorbornadiene (B1) or dimethylspirobicyclo[2.2.1]hepta-2,5- diene-2,3-dicarboxylate-7,1'-cyclopropane (B2). The most successful initiators that were examined are of the type Mo(NR)(CHCMe2Ph)[OCMe(CF3)2]2 (R = 2,6-Me2C6H3 (1) or 2,6-i- Pr2C6H3 (2)).
    [Show full text]
  • Kalowjulia CV Long
    JULIA A. KALOW Department of Chemistry Northwestern University 2145 Sheridan Road [email protected] Evanston, IL 60208-3113 http://sites.northwestern.edu/kalowlab/ PROFESSIONAL EXPERIENCE Assistant Professor of Chemistry, Northwestern University 2016–present Ruth L. Kirschstein Postdoctoral Fellow, Massachusetts Institute of Technology 2013–2016 Advisor: Professor Timothy M. Swager • Developed an efficient synthesis of telechelic P3HT and a versatile strategy to prepare miktoarm branched polymers based on ring-opening metathesis polymerization. • Studied the self-assembly of novel architectures of conjugated polymers in solution and in bulk. • Collaborated with a team of researchers studying tunable complex emulsions and applied these emulsions to enzyme sensing. Graduate Research Assistant, Princeton University, Department of Chemistry 2008–2013 Advisor: Professor Abigail G. Doyle Thesis title: Catalytic strategies for asymmetric nucleophilic fluorination using a latent HF source: Development and mechanistic investigations • Initiated a program in asymmetric catalytic nucleophilic fluorination in the Doyle lab and introduced the use of benzoyl fluoride as a latent HF source for C–F bond formation. • Discovered key mechanistic insights into cooperative catalysis in the fluorination reactions that have led to additional projects, including selective radiofluorination. Intern, Merck Research Laboratories, Medicinal Chemistry, Boston, MA Summer 2007 • Investigated metal-catalyzed trifluoromethylation methods (with Dr. Jed Hubbs). Undergraduate Researcher, Columbia University, Department of Chemistry 2005–2008 Advisor: Professor James L. Leighton • Participated in studies toward the synthesis of isocyclocitrinol A (with Dr. Arash Soheili). • Developed an enantioselective imino-Nazarov rearrangement (with Dr. Gregory Notte). EDUCATION Princeton University, Princeton, NJ 2008–2013 Ph.D., Chemistry • Cumulative GPA: 4.00/4.00 Columbia University, New York, NY 2004–2008 B.A.
    [Show full text]
  • Kalowjulia CV Long
    JULIA A. KALOW Department of Chemistry Northwestern University work: (847) 467-4972 2145 Sheridan Road [email protected] Evanston, IL 60208-3113 http://sites.northwestern.edu/kalowlab/ PROFESSIONAL EXPERIENCE Assistant Professor of Chemistry, Northwestern University 2016–present • Research interests: polymer chemistry, synthetic methodology, photochemistry, catalysis, physical organic chemistry, tissue engineering, sustainable polymers, organic materials Ruth L. Kirschstein Postdoctoral Fellow, Massachusetts Institute of Technology 2013–2016 Advisor: Professor Timothy M. Swager • Developed an efficient synthesis of telechelic P3HT and a versatile strategy to prepare miktoarm branched polymers based on ring-opening metathesis polymerization. • Studied the self-assembly of novel architectures of conjugated polymers in solution and in bulk. • Designed responsive emulsions and developed strategies for the use of tunable complex emulsions in enzyme sensing. Graduate Research Assistant, Princeton University, Department of Chemistry 2008–2013 Advisor: Professor Abigail G. Doyle Thesis title: Catalytic strategies for asymmetric nucleophilic fluorination using a latent HF source: Development and mechanistic investigations • Initiated a program in asymmetric catalytic nucleophilic fluorination in the Doyle lab and introduced the use of benzoyl fluoride as a latent HF source for C–F bond formation. • Discovered key mechanistic insights into cooperative catalysis in the fluorination reactions that have led to additional projects, including selective radiofluorination. Intern, Merck Research Laboratories, Medicinal Chemistry, Boston, MA Summer 2007 • Investigated metal-catalyzed trifluoromethylation methods (with Dr. Jed Hubbs). Undergraduate Researcher, Columbia University, Department of Chemistry 2005–2008 Advisor: Professor James L. Leighton • Participated in studies toward the synthesis of isocyclocitrinol A (with Dr. Arash Soheili). • Developed an enantioselective imino-Nazarov rearrangement (with Dr. Gregory Notte).
    [Show full text]
  • Camille Dreyfus Teacher-Scholar Awards Program
    Camille Dreyfus Teacher-Scholar Awards Program Institution Awarde Project e 2021 The University of Chicago John Anderson Leveraging Unorthodox Bonding Effects in Transition Metal Molecules and Materials The University of Texas at Austin Carlos Baiz Ultrafast Dynamics at Heterogeneous Liquid-Liquid Interfaces University of California, Santa Christopher Bates Phase Behavior of Statistical Bottlebrush Copolymers Barbara University of Maryland, College Osvaldo Gutierrez New Paradigms in Sustainable Catalysis Park Northwestern University Julia Kalow Harnessing Reactivity-Property Relationships for Polymer Discovery University of California, Berkeley Markita Landry Plant Transport Phenomena to Optimize Plant Photosynthesis Cornell University Song Lin An Electrocatalytic Approach to Organic Reaction Discovery Yale University Nikhil Malvankar Biogenic Production of Robust and Scalable Nanomaterials with Genetically Tunable Electronic, Optical, and Mechanical Functionalities Massachusetts Institute of Karthish Manthiram Electrification and Decarbonization of Chemical Synthesis Technology University of California, Davis David Olson Chemical Tools for Controlling Neuroplasticity Brown University Brenda Rubenstein Accurate and Efficient Stochastic Electronic Structure Algorithms for Materials Design University of California, San Ian Seiple Chemical Synthesis to Enable Biological Discovery Francisco University of Utah Luisa Whittaker-Brooks Designer Hybrid Organic-Inorganic Interfaces for Coherent Spin and Energy Transfer Lehigh University Xiaoji Xu Development of the Next Generation of Multimodal Chemical, Optical, and Electrical Scanning Probe Microscopy University of Massachusetts Mingxu You Nucleic Acid-based Cellular Imaging and Analysis Amherst University of California, San Joel Yuen-Zhou Polariton Chemistry: Controlling Molecules with Optical Cavities Diego 2020 The Ohio State University L. Robert Baker Visualizing Charge and Spin Dynamics at Interfaces Brown University Ou Chen From Nanocrystals to Macromaterials: Bridging the Divide Duke University Emily R.
    [Show full text]
  • Abstract Book of the Society of Rheology 91St Annual Meeting
    THE SOCIETY OF RHEOLOGY 91ST ANNUAL MEETING PROGRAM AND ABSTRACTS Raleigh Convention Center Raleigh, North Carolina October 20 - 24, 2019 Program Committee: Nick Alvarez Helen Joyner Drexel University University of Idaho Arezoo Ardekani Stephanie Lam Purdue University Glaxo Smith Klein Sibani Lisa Biswal (co-chair) Amanda Marciel Rice University Rice University Michelle Calabrese Hadi Mohammadigoushki University of Minnesota Florida A&M University-Florida State University Xiang F. Cheng Ehssan Nazockdast University of Minnesota The University of North Carolina at Chapel Hill Sujit Datta Joseph Samaniuk Princeton University Colorado School of Mines Cari Dutcher Jon Seppala University of Minnesota NIST Heather Emady Vivek Sharma Arizona State University University of Illinois at Chicago Suzanne Fielding Samanvaya Srivastava University of Durham UCLA Reza Foudazi Ran Tao New Mexico State University NIST John Frostad Evelyne van Ruymbeke University of British Columbia UCLouvain Sarah Hormozi Sachin Velankar Ohio University University of Pittsburg Steve Hudson (co-chair) Travis Walker NIST South Dakota School of Mines & Technology Alan Jacob Javen Weston North Carolina State University University of Tulsa Safa Jamali Rosanna Zia Northeastern University Stanford University Local Arrangements: Saad Khan Lilian Hsiao Michael Rubinstein North Carolina State North Carolina State Duke University University University Abstract Book Editor and Webmaster: Albert Co, University of Maine Meeting Schedule Monday, October 21, 2019 Tuesday, October 22,
    [Show full text]