29 publications (17 first/second author, 1 co-corresponding author)

Google Scholar 

Peer-Reviewed. A * denotes equal contribution. (n=15; h-index=15)

29. Schloemer, T.H.*; Harper, C.C.*; Jordan, J.S.; Heflin, N.; Narayanan, P.; Zhou, Q.; Congreve, D.N.; Williams, E.R. Understanding Nanocapsule Formation Dynamics and Physical Properties Using Charge Detection Mass Spectrometry. ACS Nano 2024, acsnano.4c12461. https://doi.org/10.1021/acsnano.4c12461.

28. Schloemer, T.H.; Congreve, D.N. The Practical Power of Fusing Photons - IEEE Spectrum. https://spectrum.ieee.org/photon-upconversion.

27. Schloemer, T. H.; Sanders, S.N.; Narayanan, P.; Hu, M.; Zhou, Q.; Congreve, D.N. Controlling the Durability and Optical Properties of Triplet-Triplet Annihilation Upconversion Nanocapsules. Nanoscale 2023. https://pubs.rsc.org/en/content/articlelanding/2023/nr/d3nr00067b. 

26. Schloemer, T. H.*; Narayanan, P.*; Zhou, Q.*; Belliveau, E.; Seitz, M.; Congreve, D. N. Nanoengineering Triplet–Triplet Annihilation Upconversion: From Materials to Real-World Applications. ACS Nano 2023, 17 (4), 3259–3288.https://doi.org/10.1021/acsnano.3c00543. 

25. Burroughs, M. C.; Schloemer, T. H.; Congreve, D. N.; Mai, D. J. Gelation Dynamics during Photo-Cross-Linking of Polymer Nanocomposite Hydrogels. ACS Polym. Au 2022. https://doi.org/10.1021/acspolymersau.2c00051. 

24. Schloemer, T. H.; Sanders, S. N.; Zhou, Q.; Narayanan, P.; Hu, M.; Gangishetty, M. K.; Anderson, D.; Seitz, M.; Gallegos, A. O.; Stokes, R. C.; Congreve, D. N. Triplet Fusion Upconversion Nanocapsule Synthesis. JoVE (Journal of Visualized Experiments) 2022, No. 187, e64374. https://doi.org/10.3791/64374. 

23. Sanders, S. N.*; Schloemer, T. H.*; Gangishetty, M. K.; Anderson, D.; Seitz, M.; Gallegos, A. O.; Stokes, R. C.; Congreve, D. N. Triplet Fusion Upconversion Nanocapsules for Volumetric 3D Printing. Nature 2022, 604 (7906), 474–478. https://doi.org/10.1038/s41586-022-04485-8. 

Press reports: The Naked Scientist (BBC) (podcast link), Tech Xplore, TechNewsBoy, Mirage News, EurekAlert!, Nanowerk, New Scientist, MorningNews, New Scientist-Astrobiology, Gizmag Emerging Technology Magazine, Stanford Report, Harvard Gazette

22. Schloemer, T. H.*; Raiford, J. A.*; Gehan, T. S.; Moot, T.; Nanayakkara, S.; Harvey, S. P.; Bramante, R. C.; Dunfield, S.; Louks, A. E.; Maughan, A. E.; Bliss, L.; McGehee, M. D.; van Hest, M. F. A. M.; Reese, M. O.; Bent, S. F.; Berry, J. J.; Luther, J. M.; Sellinger, A. The Molybdenum Oxide Interface Limits the High-Temperature Operational Stability of Unencapsulated Perovskite Solar Cells. ACS Energy Lett. 2020, 5 (7), 2349–2360. https://doi.org/10.1021/acsenergylett.0c01023. 

21. Gao, L.*; Schloemer, T. H.*; Zhang, F.; Chen, X.; Xiao, C.; Zhu, K.; Sellinger, A. Carbazole-Based Hole-Transport Materials for High-Efficiency and Stable Perovskite Solar Cells. ACS Appl. Energy Mater. 2020, 3 (5), 4492–4498. https://doi.org/10.1021/acsaem.0c00179. 

20. Schloemer, T. H.; Christians, J. A.; Luther, J. M.; Sellinger, A. Doping Strategies for Small Molecule Organic Hole-Transport Materials: Impacts on Perovskite Solar Cell Performance and Stability. Chemical Science 2019, 10 (7), 1904-1935. https://doi.org/10.1039/C8SC05284K. 

Awarded top 1% most cited author for the Royal Society of Chemistry in 2020; part of multiple themed collections, such as most popular 2018-19 and 2019-2020 review articles and most popular 2019-2020 materials and energy chemistry articles

19. Schloemer, T. H.*; Gehan, T. S.*; Christians, J. A.; Mitchell, D. G.; Dixon, A.; Li, Z.; Zhu, K.; Berry, J. J.; Luther, J. M.; Sellinger, A. Thermally Stable Perovskite Solar Cells by Systematic Molecular Design of the Hole-Transport Layer. ACS Energy Letters 2019, 4 (2), 473–482. https://doi.org/10.1021/acsenergylett.8b02431. 

18. Kerner, R. A.*; Schloemer, T. H.*; Schulz, P.; Berry, J. J.; Schwartz, J.; Sellinger, A.; Rand, B. P. Amine Additive Reactions Induced by the Soft Lewis Acidity of Pb 2+ in Halide Perovskites. Part I: Evidence for Pb–Alkylamide Formation. Journal of Materials Chemistry C 2019, 7 (18), 5251-5259. https://doi.org/10.1039/C8TC04871A. 

17. Kerner, R. A.*; Schloemer, T. H.*; Schulz, P.; Berry, J. J.; Schwartz, J.; Sellinger, A.; Rand, B. P. Amine Additive Reactions Induced by the Soft Lewis Acidity of Pb 2+ in Halide Perovskites. Part II: Impacts of Amido Pb Impurities in Methylammonium Lead Triiodide Thin Films. Journal of Materials Chemistry C 2019, 7 (18), 5244-5250. https://doi.org/10.1039/C8TC04872J. 

16. Adhia, Y. J.; Schloemer, T. H.; Perez, M. T.; McNeil, A. J. Using Polymeric Additives to Enhance Molecular Gelation: Impact of Poly(Acrylic Acid) on Pyridine-Based Gelators. Soft Matter 2012, 8 (2), 430–434. https://doi.org/10.1039/C1SM06580G. 

Non-peer Reviewed. (n=27)

15. Schloemer, T. H. Managing Big Data. Nat Energy 2022, 7 (2), 122–123. https://doi.org/10.1038/s41560-021-00972-w. 

14. Schloemer, T. H. Why consider trying project-based learning? Chemical Education Xchangehttps://www.chemedx.org/blog/why-consider-trying-project-based-learning (>41,000 views, accessed October 2023). Monthly contributor from 2015-2017 (link to a list of all 25 contributions).

13. Schloemer, T. H.; Rinaldi, S. Idea Bank: Celebrating Seren"dipity": Connecting Chemistry and History. The Science Teacher 2011, 78 (4), 62–63. 

A * denotes corresponding author. (n=1)

12. Zhou, Q.; Wirtz, B. M.; Schloemer, T. H.*; Burroughs, M. C.; Hu, M.; Narayanan, P.; Lyu, J.; Gallegos, A. O.; Layton, C.; Mai, D. J.*; Congreve, D. N.* Spatially Controlled UV Light Generation at Depth Using Upconversion Micelles. Advanced Materials 2023, 35 (46), 2301563. https://doi.org/10.1002/adma.202301563. 

(n=11)

11. Burroughs, M.C.; Quirk, E.L.; Wirtz, B.M.; Schloemer, T.H.; Congreve, D.N.; Mai, D.J. Photochemically Reversible Star Polymer Networks as a Platform for Circular Materials Engineering. Submitted. 2024.

10. Narayanan, P.; Hu, M.; Gallegos, A. O.; Pucurimay, L.; Zhou, Q.; Belliveau, E.; Ahmed, G. H.; Fernández, S.; Michaels, W.; Murrietta, N.; Mutatu, V. E.; Feng, D.; Hamid, R.; Yap, K. M. K.; Schloemer, T. H.; Jaramillo, T. F.; Kats, M. A.; Congreve, D. N. Overcoming the Absorption Bottleneck for Solid-State Infrared-to-Visible Upconversion. ChemRxiv2024. https://doi.org/10.26434/chemrxiv-2024-h0k05.

9. Hu, M.; Fernández, S.; Zhou, Q.; Narayanan, P.; Saini, B.; Schloemer, T. H.; Lyu, J.; Gallegos, A. O.; Ahmed, G. H.; Congreve, D. N. Water Additives Improve the Efficiency of Violet Perovskite Light-Emitting Diodes. Matter 2023, 6 (7), 2356–2367. https://doi.org/10.1016/j.matt.2023.05.018. 

8. Gallegos, A. O.; Ahmed, G. H.; Schloemer, T. H.; Congreve, D. N. Reflections on Hosting Summer Undergraduate Researchers in the Midst of a Pandemic. Matter 2021, 4 (10), 3074–3077. https://doi.org/10.1016/j.matt.2021.09.013. 

7. Vidal, R.; Alberola-Borràs, J.-A.; Habisreutinger, S. N.; Gimeno-Molina, J.-L.; Moore, D. T.; Schloemer, T. H.; Mora-Seró, I.; Berry, J. J.; Luther, J. M. Assessing Health and Environmental Impacts of Solvents for Producing Perovskite Solar Cells. Nat Sustain 2020. https://doi.org/10.1038/s41893-020-00645-8. 

6. Eperon, G. E.; Stone, K. H.; Mundt, L. E.; Schloemer, T. H.; Habisreutinger, S. N.; Dunfield, S. P.; Schelhas, L. T.; Berry, J. J.; Moore, D. T. The Role of Dimethylammonium in Bandgap Modulation for Stable Halide Perovskites. ACS Energy Lett. 2020, 5 (6) 1856–1864. https://doi.org/10.1021/acsenergylett.0c00872. 

5. V. Milić, J.; Ehnbom, A.; Garedew, M.; Vincent-Ruz, P.; Schloemer, T. H.; Hodgson, G. K.; Oakley, M. S.; Sasaki, K.; Chander, S.; Légaré, M.-A.; Callmann, C. E.; Bismillah, A. N.; van Osch, D. J. G. P.; Sanchez, V.; Boase, N. R. B.; Mambwe, D.; Coley, C. W.; Deng, Y.; Betz, K. N.; Sanjosé-Orduna, J.; Natoli, S.; Zhang, L.; Bakulina, O.; Fereyduni, E.; Hilario-Martínez, J. C.; Busta, L.; Hunter, A.; Park, Y.; Zadeh, F. H. The Future of Scientific Leadership Is Interdisciplinary: The 2019 CAS Future Leaders Share Their Vision. iScience 2020, 23 (9), 101442. https://doi.org/10.1016/j.isci.2020.101442.

4. Moot, T.; Dikova, D. R.; Hazarika, A.; Schloemer, T. H.; Habisreutinger, S. N.; Leick, N.; Dunfield, S. P.; Rosales, B. A.; Harvey, S. P.; Pfeilsticker, J. R.; Teeter, G.; Wheeler, L. M.; Larson, B. W.; Luther, J. M. Beyond Strain: Controlling the Surface Chemistry of CsPbI3 Nanocrystal Films for Improved Stability against Ambient Reactive Oxygen Species. Chem. Mater. 2020, 32 (18), 7850–7860. https://doi.org/10.1021/acs.chemmater.0c02543. 

3. Moot, T.; Marshall, A. R.; Wheeler, L. M.; Habisreutinger, S. N.; Schloemer, T. H.; Boyd, C. C.; Dikova, D. R.; Pach, G. F.; Hazarika, A.; McGehee, M. D.; Snaith, H. J.; Luther, J. M. CsI-Antisolvent Adduct Formation in All-Inorganic Metal Halide Perovskites. Advanced Energy Materials 2020, 10 (9), 1903365. https://doi.org/10.1002/aenm.201903365. 

2. Christians, J. A.; Zhang, F.; Bramante, R. C.; Reese, M. O.; Schloemer, T. H.; Sellinger, A.; van Hest, M. F. A. M.; Zhu, K.; Berry, J. J.; Luther, J. M. Stability at Scale: Challenges of Module Interconnects for Perovskite Photovoltaics. ACS Energy Letters 2018, 3 (10), 2502–2503. https://doi.org/10.1021/acsenergylett.8b01498. 

1.  Christians, J. A.; Schulz, P.; Tinkham, J. S.; Schloemer, T. H.; Harvey, S. P.; Villers, B. J. T. de; Sellinger, A.; Berry, J. J.; Luther, J. M. Tailored Interfaces of Unencapsulated Perovskite Solar Cells for >1,000 Hour Operational Stability.Nature Energy 2018, 3 (1), 68. https://doi.org/10.1038/s41560-017-0067-y. 

1. Congreve, D.N.; Schloemer, T.H.; Zhou, Q. Systems and Methods for Ultraviolet Light Emission. Provisional Patent Application No. 63/365,112 (May 20, 2022).

Direct Awardee.

2. Precourt Institute for Energy, Stanford University (2021; ~$400,000). “A Circular 3D Printing Economy Enabled by Photon Upconversion.” Prof. Dan Congreve (Stanford), Prof. Danielle Mai (Stanford), Prof. Yan Xia (Stanford), Dr. Tracy Schloemer (Stanford) (Press Release link).

1. Physical Science Fellow, Knowles Teacher Initiative (2009; ~$150,000) (link).