3. Jeremy Bard

Jeremy Bard

Faculty
Chemistry Dept
  • Assistant Professor of Chemistry

Jeremy Bard

Education:

Bachelor of Science: Chemistry (2016) Eastern Oregon University: La Grande, OR

Doctor of Philosophy: Physical Organic Chemistry (2021) University of Oregon: Eugene, OR

Teaching:

Taking general and organic chemistry courses at Eastern Oregon University showed me how interesting and pivotal chemistry is to the world around us. To get the most out of these courses, I would frequently work in study groups and talk with several people about the topics. After finishing the courses, I became a tutor for the organic chemistry course, which is where I realized that I found great fulfillment in the teaching of chemistry. Since then, I have strived to shape my career around the teaching of chemistry, specifically at an undergraduate level, as I aspire to create the same experience for my students that I had when I was an undergraduate.

Research:

The Bard lab focuses on the synthesis and characterization of a variety of novel organic small molecules. Through a combination of organic synthesis, analytical measurement, and physical organic concepts, we work to develop structure-property relationships for families of related molecules. Primarily, we are focusing on developing new and interesting types of Fluorescence Resonance Energy Transfer (FRET) dyes that seek to achieve high separations between the colors of light emitted and the colors of light absorbed. Additionally, we are working to develop a family of related ion-pair host molecules capable of selective sensing of certain ion pairs.

The majority of the work in the lab consists of a combination of organic synthesis, photophysical characterization, and physical organic studies.

The research lab is located in S217, which is equipped with all of the day to day equipment every organic chemist needs, including fume hoods, Schlenk lines, and a rotovap! If you are interested in learning more about my work or are interested in working in the lab, please email me to talk more!

Publications:

  1. Bard, J.P., Deenik, P.R., Hamann, K.R., Morales, D.A., Cavinato, A.G (2016). In Building and Maintaining Award-Winning ACS Student Member Chapters, Volume 2: Specific Program Areas (pp. 73鈥94); Mio, M.J. & Benvenuto, M.A. (eds.). DOI: 10.1021/bk-2016-1230.ch008.
  2. Frederickson, C.K., Barker, J.E., Dressler, J.J., Zhou, Z., Hanks, E.R., Bard, J.P., Zakharov, L.N., Petrukhina, M.A., Haley, M.M. 鈥淪ynthesis and Characterization of a Fluorescent Dianthracenoindacene. Synlett 2018, 29, 2562鈥2566 (highlighted by Swager, T.M. & Yoshinaga, K. Synfacts 2018, 14, 1243).
  3. Deng, C.-L., Bard, J.P., Lohrman, J.A., Barker, J.E., Zakharov, L.N., Johnson, D.W., Haley, M.M. 鈥Exploiting the Hydrogen Bond Donor/Acceptor Properties of PN-Heterocycles: Selective Anion Receptors for Hydrogen Sulfate.鈥 Chem. Int. Ed. 2019, 58, 3934鈥3938.
  4. Bard, J.P., Deng, C.-L., Richardson, H.C., Odulio, J.M., Barker, J.E., Zakharov, L.N., Cheong, P.H.-Y., Johnson, D.W., Haley, M.M. 鈥淪ynthesis, Photophysical, and Dimerization Properties of 2-位5-笔丑辞蝉辫丑补辩耻颈苍辞濒颈苍-2-辞苍别蝉.鈥 Chem. Front. 2019, 6, 1257鈥1265.
  5. Deng, C.-L., Bard, J.P., Zakharov, L.N., Johnson, D.W., Haley, M.M. 鈥淣aphtho[2,1-e]-1,2-azaphosphorine-2-oxides Derivatives: Synthesis, Optoelectronic Properties, and Self-Dimerization Phenomena.鈥 Org. Chem. 2019, 84, 81318139.
  6. Nojo, W., Reingold, I.D., Bard, J.P., Chase, D.T., Deng, C.-L., Haley, M.M. 鈥淒onor-/Acceptor-Substituted Tetrakis(arylethynyl)benzenes: The Influence of Donor Group on Optoelectronic Properties.鈥 ChemPlusChem 2019, 84, 13911395.
  7. Deng, C.-L., Bard, J.P., Zakharov, L.N., Johnson, D.W., Haley, M.M. 鈥淧N-Containing Pyrene Derivatives: Synthesis, Structure and Photophysical Properties.鈥 Lett. 2019, 21, 6427鈥6431.
  8. Bard, J.P., Bates, H.J., Deng, C.-L., Zakharov, L.N., Johnson, D.W., Haley, M.M. 鈥淎mplification of the Quantum Yields of 2-位5-Phosphaquinolin-2-ones Through Phosphorus Center Modification.鈥 Org. Chem. 2020, 85, 85鈥91.
  9. Bard, J.P., Mancuso, J.L., Deng, C.-L., Zakharov, L.N., Johnson, D.W., Haley, M.M. 鈥淎 Highly Fluorescent PN-heterocycle-fused Pyrene Derivative with Strong Self-dimerization through Hydrogen Bonding.鈥 Chem. 2020, 32, 49鈥55.
  10. Bard, J.P., Johnson, D.W., Haley, M.M. 鈥淏umpy Roads Lead to Beautiful Places: The Twists and Turns in Developing a New Class of PN-Heterocycles.鈥 Synlett 2020, 31, 1862鈥1877. (Invited Account Article).
  11. Bard, J.P., McNeill, J.N., Zakharov, L.N., Johnson, D.W., Haley, M.M. 鈥淭hionation of the 2-位5-Phosphaquinolin-2-one Scaffold with Lawesson鈥檚 Reagent.鈥 J. Chem. 2021, 61, 217鈥221.
  12. N. McNeill, L.J. Karas, J. P. Bard, K. Fabrizio, L.N. Zakharov, S.N. MacMillan, C.K. Brozek, J.I. Wu, D.W. Johnson and M.M. Haley 鈥淐ontrolling Tautomerization in Pyridine-Fused Phosphorus-Nitrogen Heterocycles.鈥 Chem. Eur. J. 202228, e202200472.