Research

Our research is focused on fundamental problems in nanoscience and how they impact optoelectronic applications of nanoscale materials. Our approach integrates the design and synthesis of novel nanomaterials with detailed characterization in order to reveal how such materials interact with light. The group welcomes a broad spectrum of scientists, with interests ranging from synthetic chemistry to electron microscopy to femtosecond spectroscopy.

One of the defining themes in nanoscience is the control of physical properties of a material (such as its electronic structure) through solution-phase synthesis that produces nanostructures of well-defined composition, size, and shape. Our synthetic efforts are directed at creating complex nanomaterials that incorporate the properties necessary for optoelectronic applications, such as optimized light absorption and spatial separation of photoexcited charges. We use advanced electron microscopy techniques to characterize structure and composition of novel nanomaterials at the atomic level.

Time-resolved electronic spectroscopy allows us to directly probe the behavior of excited electrons and holes created when a material absorbs light. Events such as charge separation, transfer, recombination, and trapping determine the efficiency of photon energy conversion. We are interested in mapping out the dynamics of such events to understand how to improve the design of next generation nanomaterials. Using ultrafast spectroscopic techniques and analytical or numerical modeling, our group investigates the behavior of photoexcited charge carriers in colloidal semiconductor nanocrystals and how these behaviors are influenced by factors such as the nanocrystal material, size, shape, and surface chemistry.

Research Topic 1
Relevant Publications
  1. M. J. Coley-O'Rourke, B. Hou, S. J. Sherman, G. Dukovic, E. Rabani. "." Nano Letters, 2025, 25 (1), 244–250.
  2. S. Gallagher, J. Kline, F. Jahanbakhshi, J. C. Sadighian, I. Lyons, G. Shen, B. F. Hammel, S. Yazdi, G. Dukovic, A. W. Rappe, D. S. Ginger. "." ACS Nano, 2024, 18 (29), 19208-19219.
  3. K. E. Shulenberger, S. J. Sherman, M. R. Jilek, H. R. Keller, L. M. Pellows, G. Dukovic. "."ÌýJournal of Chemical Physics,Ìý2024,Ìý160, 014708.
  4. (Invited review)ÌýK. E. Shulenberger, M. R. Jilek, S. J. Sherman, B. T. Hohman, G. Dukovic. "."ÌýChemical Reviews,Ìý2023,Ìý123Ìý(7), 3852-3903.
  5. K. E. Shulenberger, H. R. Keller, L. M. Pellows, N. L. Brown, G. Dukovic. "."ÌýJournal of Physical Chemistry C,Ìý2021,Ìý125Ìý(41), 22650-22659.
  6. (Invited perspective)ÌýJ. K. Utterback, R. P. Cline, K. E. Shulenberger, J. D. Eaves, G. Dukovic. "."ÌýJournal of Physical Chemistry Letters,Ìý2020,Ìý11Ìý(22), 9876-9885.
  7. T. Labrador,ÌýG. Dukovic. "."ÌýJournal of Physical Chemistry C,Ìý2020,Ìý124Ìý(15), 8439-8447.
  8. J. K. Utterback, J. L. Ruzicka, H. Hamby, J. D. Eaves, G. Dukovic. "."ÌýJournal of Physical Chemistry Letters,Ìý2019,Ìý10, 2782−2787.
  9. J. K. Utterback, H. Hamby, O. M. Pearce, J. D. Eaves, G. Dukovic. "."ÌýJournal of Physical Chemistry C,Ìý2018,Ìý122Ìý(29), 16974-16982.
  10. R. P. Cline, J. K. Utterback, S. E. Strong, G. Dukovic, J. D. Eaves. "."ÌýJournal of Physical Chemistry Letters,Ìý2018,Ìý9, 3532-3537.
  11. K. J. Schnitzenbaumer, G. Dukovic. "."ÌýNano Letters,Ìý2018,Ìý18Ìý(6), 3667-3674.
  12. A. N. Grennell, J. K. Utterback, O. M. Pearce, M. B. Wilker, G. Dukovic. "."ÌýNano Letters,Ìý2017,Ìý17, 3764-3774.
  13. J. K. Utterback, A. N. Grennell, M. B. Wilker, O. M. Pearce, J. D. Eaves, G. Dukovic. "."ÌýNature Chemistry,Ìý2016,Ìý8, 1061-1066.
  14. K. J. Schnitzenbaumer, T. Labrador, G. Dukovic. "."ÌýJournal of Physical Chemistry C,Ìý2015,Ìý119Ìý(23), 13314-13324.
  15. K. J.ÌýSchnitzenbaumer,ÌýG.ÌýDukovic. ""ÌýJournal of Physical Chemistry C,Ìý2014,Ìý118, 28170–28178.

Ìý

Relevant Publications
  1. H. A. Nguyen, B. F. Hammel, D. Sharp, J. Kline, G. Schwartz, S. Harvey, E. Nishiwaki, S. F. Sandeno, D. S. Ginger, A. Majumdar, S. Yazdi, G. Dukovic, B. M. Cossairt. "." ACS Nano, 2024, 13 (31), 20726-20739.
Research Topic 3
Relevant Publications
  1. B. P. Jagilinki, M. A. Willis, F. Mus, R. Sharma, L. M. Pellows, D. W. Mulder, Z.-Y. Yang, L. C. Seefeldt, P. W. King, G. Dukovic, J. W. Peters.Ìý"." Bio-protocol, 2024, 14 (15), 5401
  2. A. Clinger, Z.-Y. Yang,ÌýL. M. Pellows, P. King, F. Mus, J. W. Peters,ÌýG. Dukovic, L. C. Seefeldt.Ìý"."ÌýJournal of Inorganic Biochemistry,Ìý2024,Ìý253, 112484.
  3. L. M. Pellows, G. E. Vansuch, B. Chica, Z.-Y. Yang,ÌýJ. L. Ruzicka,ÌýM. A. Willis, A. Clinger, K. A. Brown, L. C. Seefeldt,ÌýJ. W. Peters,ÌýG. Dukovic,ÌýD. W. Mulder, P. W. King.Ìý"."ÌýJournal of Chemical Physics,Ìý2023,Ìý159, 235102.
  4. L. M. Pellows, M. A. Willis, J. L. Ruzicka, B. P. Jagilinki, D. W. Mulder, Z.-Y. Yang, L. C. Seefeldt, P. W. King, G. Dukovic, J. W. Peters.Ìý"."ÌýNano Letters,Ìý2023,Ìý23Ìý(22), 10466-10472.
  5. G. E. Vansuch, D. W. Mulder, B. Chica, J. L. Ruzicka, Z.-Y. Yang, L. M. Pellows, M. A. Willis, K. A. Brown, L. C. Seefeldt, J. W. Peters, G. Dukovic, P. W. King. "."ÌýJournal of the American Chemical Society,Ìý2023, 145Ìý(39), 21165-21169.
  6. J. L. Ruzicka, L. M. Pellows, H. Kallas, K. E. Shulenberger, O. A. Zadvornyy, B. Chica, K. A. Brown, J. W. Peters, P. W. King, L. C. Seefeldt, G. Dukovic. "." Journal of Physical Chemistry C, 2022, 126 (19), 8425-8435.
  7. B. Chica, J. Ruzicka, L. M. Pellows, H. Kallas, E. Kisgeropoulos, G. E. Vansuch, D. W. Mulder, K. A. Brown, D. Svedruzic, J. W. Peters, G. Dukovic, L. C. Seefeldt, P. W. King. "." Journal of the American Chemical Society, 2022, 144 (13), 5708-5712.
  8. K. A. Brown, J. Ruzicka, H. Kallas, B. Chica, D. W. Mulder, J. W. Peters, L. C. Seefeldt, G. Dukovic, P. W. King. "." ACS Catalysis, 2020, 10 (19), 11147-11152.
  9. B. Chica, J. Ruzicka, H. Kallas, D. W. Mulder, K. A. Brown, J. W. Peters, L. C. Seefeldt, G. Dukovic, P. W. King. "." Journal of the American Chemical Society, 2020, 142 (33), 14324-14330.
  10. (Invited review) J. K. Utterback, J. L. Ruzicka, H. R. Keller, L. M. Pellows, G. Dukovic. "." Annual Review of Physical Chemistry, 2020, 71, 335-359.
  11. H. Hamby, B. Li, K. E. Shinopoulos, H. R. Keller, S. J. Elliott, G. Dukovic. "." Proceedings of the National Academy of Sciences, 2020, 117 (1), 135-140.
  12. O. M. Pearce, J. S. Duncan, B. Lama, G. Dukovic, N. H. Damrauer. "." Journal of Physical Chemistry Letters, 2020, 11 (22), 9552-9556.
  13. J. K. Utterback, M. B. Wilker, D. W. Mulder, P. W. King, J. D. Eaves, G. Dukovic. "." Journal of Physical Chemistry C, 2019, 123 (1), 886-896.
  14. M. B. Wilker, J. K. Utterback, S. Greene, K. A. Brown, D. W. Mulder, P. W. King, G. Dukovic. "." Journal of Physical Chemistry C, 2018, 122 (1), 741-750.
  15. O. M. Pearce, J. S. Duncan, N. H. Damrauer, G. Dukovic. "." Journal of Physical Chemistry C, 2018, 122 (30), 17559-17565.
  16. M. W. Ratzloff, M. B. Wilker, D. W. Mulder, C. E. Lubner, H. Hamby, K. A. Brown, G. Dukovic, P. W. King. "." Journal of the American Chemical Society, 2017, 139 (37), 12879-12882.
  17. K. A. Brown, D. F. Harris, M. B. Wilker, A. Rasmussen, N. Khadka, H. Hamby, S. Keable, G. Dukovic, J. W. Peters, L. C. Seefeldt, P. W. King. "." Science, 2016, 352, 448-450.
  18. K. A. Brown, M. B. Wilker, M. Boehm, H. Hamby, G. Dukovic, P. W. King. "." ACS Catalysis, 2016, 6 (4), 2201-2204.
  19. J. K. Utterback, M. B. Wilker, K. A. Brown, P. W. King, J. D. Eaves and G. Dukovic. "" Physical Chemistry Chemical Physics, 2015, 17, 5538-5542.
  20. M. B. Wilker, K.E. Shinopoulos, K. A. Brown, D. W. Mulder, P. W. King, G. Dukovic. "" Journal of the American Chemical Society, 2014, 136, 4316–4324.
  21. H. W. Tseng , M. B. Wilker , N. H. Damrauer, G. Dukovic. "" Journal of the American Chemical Society, 2013, 135, 3383–3386.
  22. (Invited review) M. B. Wilker, K. J. Schnitzenbaumer, G. Dukovic. "" Israel Journal of Chemistry, 2012, 52, 1002–1015 (special issue "Nanochemistry: Wolf Prize for A. Paul Alivisatos and Charles M. Lieber")
  23. K. A. Brown, M. B. Wilker, M. Boehm, G. Dukovic,ÌýP. W. King.Ìý“" Journal of the American Chemical Society, 2012, 134, 5627-5636.
Research Image 4
Relevant Publications
  1. J. C. Ondry, Z. Zhou, K. Lin, A. Gupta, J. H. Chang, H. Wu, A. Jeong, B. F. Hammel, D. Wang, H. C. Fry, S. Yazdi, G. Dukovic, R. D. Schaller, E. Rabani, and D. Talapin. "." Science, 2024, 386 (6720), 401-407.
  2. B. F. Hammel, L. M. G. Hall, L. M. Pellows, O. M. Pearce, P. Tongying, S. Yazdi, G. Dukovic. "."ÌýJournal of Physical Chemistry C,Ìý2023, 127 (16), 7762-7771.
  3. P. Tongying,ÌýY.-G. Lu, L. M. G. Hall, K. Lee, M. Sulima, J. Ciston, G. Dukovic. "."ÌýACS Nano,Ìý2017,Ìý11Ìý(8), 8401-8412.
  4. K. Lee, Y.-G. Lu, C.-H. Chuang, J. Ciston, G. Dukovic. "."ÌýJournal of Materials Chemistry A,Ìý2016,Ìý4, 2927-2935.
  5. C.-H. Chuang, Y.-G. Lu, K. Lee, J. Ciston, G. Dukovic. "."ÌýJournal of the American Chemical Society,Ìý2015,Ìý137Ìý(20), 6452-6455.
  6. K. Lee, B. M. Tienes, M. B. Wilker, K. J. Schnitzenbaumer, G. Dukovic. ""ÌýNano Letters,Ìý2012,Ìý12,Ìý3268–3272.

Funding & Affiliations

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