Blaskovits Group

[30] From Data to Dimers: Engineering Acene Derivatives for Photovoltaic Singlet Fission. Cross, A. J.; Tykwinski, R. R.; Blaskovits, J. T. Submitted.

[29] Organic Materials of Tomorrow: Current and Future Horizons of Artificial Intelligence. Mena, H.; Blaskovits, J. T.; Lin, K.-H.; Andrienko, D. Submitted.

[28] Synthesis, solubilization, and photophysical properties of polyfluorinated pentacene dimers. Schroeder, Z. W.; Greißel, P. M.; Wollny, A.-S.; Cross, A.; Chen, L.; Plny, G. F. P.; Muller, V.; Hall, A.; Blaskovits, J. T.; Guldi, D. M.; Tykwinski, R. R. Submitted.

[27] Enhancing the operational stability of carbene-metal-amide organic light emitting diodes. Saxena, R.; Blaskovits, J. T.; Brannan, A. C.; Romanov, A.; Andrienko, D.; Blom, P. W. M.; Wetzelaer, G.-J. A. H. Submitted.

[26] Generative design of singlet fission materials leveraging a fragment-oriented database. Worakul, T.; Laplaza, R.; Blaskovits, J. T.; Corminboeuf, C. Chemical Science, 2025, 16 (38), 17956-17969.

[25] Efficient and stable pure-blue single-layer organic light-emitting diodes based on trap-free hyperfluorescence. Sachnik, O.; Kinaret, N.; Saxena, R.; Manz, M.; lieu, W.; Blaskovits, J. T.; Andrienko, D.; Michels, J. J.; Blom, P. W. M.; Wetzelaer, G.-J. A. H. Nature Materials, 2025, 24, 1742-1748.

[24] Discerning Performance Bottlenecks of State-of-the-Art Narrow Bandgap Organic Solar Cells. Shukla, A.; Pranav, M.; He, G.; Blaskovits, J. T.; Mascione, D.; Cao, Y'; Gong, Y'; Riley, D. B.; Steele, J. A.; Solano, E.; Ehm, A'; Shadabroo, M. S.; Armin, A'; Shoaee, S.; Zahn, D. R. T.; Li, Y'; Meng, L.; Lang, F.; Andrienko, D.; Neher, D. Advanced Energy Materials, 2025, 2502398.

[23] Inverse Design of Singlet Fission Materials with Uncertainty-Controlled Genetic Optimization. Schaufelberger, L.; Blaskovits, J. T.; Laplaza, R.; Jorner, K.; Corminboeuf, C. Angewandte Chemie, 2025, 137 (3), e202415056.

[22] Data-driven discovery of organic electronic materials enabled by hybrid top-down/bottom-up design. Blaskovits, J. T.; Laplaza, R.; Vela, S.; Corminboeuf, C. Advanced Materials, 2024, 36, 2305602.

[21] Singlet-triplet inversions in through-bond charge-transfer states. Blaskovits, J. T.; Corminboeuf, C.; Garner, M. H. Journal of Physical Chemistry Letters, 2024, 15, 10062–10067

[20] Engineering frustrated Lewis pair active sites in metal-organic frameworks for catalytic CO2 hydrogenation. Das, S.; Laplaza, R.; Blaskovits, J. T.; Corminboeuf, C. Journal of the American Chemical Society, 2024, 146, 15806–15814.

[19] Enhanced inverted singlet-triplet gaps in azaphenalenes and non-alternant hydrocarbons. Garner, M. H.†; Blaskovits, J. T.†; Corminboeuf, C. Chemical Communications, 2024, 60, 2070-2073.

[18] Excited-state Hund’s Rule Violations in Bridged [10]- and [14]Annulene Perimeters. Blaskovits, J. T.; Corminboeuf, C.; Garner, M. H. Journal of Physical Chemistry A – Special issue: TADF-Active Systems: Mechanism, Applications, and Future Directions, 2024, 128, 10404-10412.

[17] Double-bond delocalization in non-alternant hydrocarbons induces inverted singlet-triplet gaps. Garner, M. H.†; Blaskovits, J. T.†; Corminboeuf, C. Chemical Science, 2023, 14, 10458-10466.

[16] Symmetry-induced singlet-triplet inversions in non-alternant hydrocarbons. Blaskovits, J. T.†; Garner, M. H.†; Corminboeuf, C. Angewandte Chemie, 2023, 135 (15), e202218156.

[15] Heteroatom oxidation controls singlet–triplet energy splitting in singlet fission building blocks. Blaskovits, J. T.; Fumanal, M.; Vela, S.; Cho, Y'; Corminboeuf, C. Chemical Communications, 2022, 58 (9), 1338–1341.

[14] Mapping active site geometry to activity in immobilized frustrated Lewis pair catalysts. Das, S.; Laplaza, R.; Blaskovits, J. T.; Corminboeuf, C. Angewandte Chemie, 2022, 134 (32), e202202727.

[13] Is a single conformer sufficient to describe the reorganization energy of amorphous organic transport materials? Blaskovits, J. T.†; Lin, K.-H.†; Fabregat, R.; Swiderska, I.; Wu, H.; Corminboeuf, C. Journal of Physical Chemistry C, 2021, 125 (31), 17355–17362.

[12] Tuning the π-accepting properties of mesoionic carbenes: A combined computational and experimental study. Dong, Z.; Blaskovits, J. T.; Fadaei-Tirani, F.; Scopelliti, R.; Sienkiewicz, A.; Corminboeuf, C.; Severin, K. Chemistry – A European Journal, 2021, 27 (46), 11983–11988.

[11] Identifying the trade-off between intramolecular singlet fission requirements in donor–acceptor copolymers. Blaskovits, J. T.; Fumanal, M.; Vela, S.; Fabregat, R.; Corminboeuf, C. Chemistry of Materials, 2021, 33 (7), 2567–2575.

[10] Designing singlet fission candidates from donor–acceptor copolymers. Blaskovits, J. T.; Fumanal, M.; Vela, S.; Corminboeuf, C. Chemistry of Materials, 2020, 32 (15), 6515–6524.

[9] Direct (hetero) arylation polymerization for the preparation of conjugated polymers. Blaskovits, J. T.; Leclerc, M. In T. A. Skotheim, B. C. Thompson and J. R. Reynolds (Eds.), The handbook of conducting polymers, 4th edition, (pp. 195–238). CRC Press, 2019.

[8] Mechanistic origin of β-defect formation in thiophene-based polymers prepared by direct (hetero)arylation. Blaskovits, J. T.; Johnson, P. A.; Leclerc, M. Macromolecules, 2018, 51 (20), 8100–8113.

[7] C-H activation as a shortcut to conjugated polymer synthesis. Blaskovits, J. T.; Leclerc, M. Macromolecular Rapid Communications, 2018, 40 (1), 1800512.

[6] Pyromellitic diimide-based copolymers and their application as stable cathode active materials in lithium and sodium-ion batteries. Zindy, N.; Blaskovits, J. T.; Beaumont, C.; Michaud-Valcourt, J.; Saneifar, H.; Johnson, P. A.; Bélanger, D.; Leclerc, M. Chemistry of Materials, 2018, 30 (19), 6821–6830.

[5] Photovoltaic device performance of highly regioregular fluorinated poly(3-hexylthiophene). Sun, J.-P.; Blaskovits, J. T.; Bura, T.; Beaupré, S.; Leclerc, M.; Hill, I. G. Organic Electronics, 2017, 50, 115–120.

[4] Direct heteroarylation polymerization: Guidelines for defect-free conjugated polymers. Bura, T.; Beaupré, S.; Légaré, M.-A.; Quinn, J.; Rochette, E.; Blaskovits, J. T.; Fontaine, F.-G.; Pron, A'; Li, Y'; Leclerc, M. Chemical Science, 2017, 8 (5), 3913–3925.

[3] A study of the degree of fluorination in regioregular poly(3-hexylthiophene). Blaskovits, J. T.†; Bura, T.†; Beaupré, S.; Lopez, S. A.; Roy, C.; de Goes Soares, J.; Oh, A'; Quinn, J'; Li, Y; Aspuru-Guzik, A; Leclerc, M. Macromolecules, 2016, 50 (1), 162–174.

[2] Direct (Hetero)arylation Polymerization: Simplicity for Conjugated Polymer Synthesis. Pouliot, J.-R.; Grenier, F.; Blaskovits, J. T.; Beaupré, S.; Leclerc, M Chemical Reviews, 2016, 116 (22), 14225–14274.

[1] Direct (hetero)arylation polymerization: Trends and perspectives. Bura, T.†; Blaskovits, J. T.†; Leclerc, M. Journal of the American Chemical Society, 2016, 138 (32), 10056–10071.