{"id":61,"date":"2015-10-04T15:28:55","date_gmt":"2015-10-04T19:28:55","guid":{"rendered":"https:\/\/kempa.chem.jh.edu\/?page_id=61"},"modified":"2026-02-06T15:04:18","modified_gmt":"2026-02-06T20:04:18","slug":"publications","status":"publish","type":"page","link":"https:\/\/kempa.chem.jh.edu\/index.php\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

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  1. L. D. Park, C. Leiter, P. D. Hanrahan, and T. J. Kempa<\/strong><\/span>
    \n“Plasmon resonance shifts in nanogaps as optical probes of thickness in 2D materials”<\/span>
    \nACS Appl. Nano Mater.<\/i> Submitted (2026).<\/span><\/li>\n
  2. P. Hanrahan, R. Dziobek-Garrett, P. Eckhert, C. Leiter, K. Kingsbury, T. H. Brintlinger, D. H. Fairbrother, and T. J. Kempa<\/strong><\/span>
    \n“Improved grain growth in large-area monolayer WX2<\/sub> (X: S, Se) films through controlled reduction of tungstate precursors”<\/span>
    \nChem. Mater.<\/i> Under revision (2026).<\/span><\/li>\n
  3. Z. Zhang, P. Hanrahan, O. Ambrozaite, R. Dziobek-Garrett, and T. J. Kempa<\/strong><\/span>
    \n“Control of 2D crystal monodispersity through a seeded growth approach”<\/span>
    \nACS Appl. Nano Mater.<\/i> 9<\/strong>, 58\u201364 (2026). Full text<\/a><\/span><\/li>\n
  4. R. Dziobek-Garrett, Y. Zhu, J. Davis, D. L. Pennington, K. Kingsbury, \u00c1. Escobar, C. H. Hendon, N. Drichko, and T. J. Kempa<\/strong><\/span>
    \n“Identification of phase changes in a model 2D MOF through polarization-resolved Raman spectroscopy”<\/span>
    \nACS Appl. Mater. Interfaces<\/i> 17<\/strong>, 59563\u201359570 (2025).     Full text<\/a><\/span><\/li>\n
  5. C. A. Mirkin, S. H. Petrosko, N. Artzi, K. Aydin, A. Biaggne, C. J. Brinker, K. E. Bujold, Y. C. Cao, R. R. Chan, C. Chen, P.-C. Chen, X. Chen, O. J. G. L. Chevalier, C. H. J. Choi, R. M. Crooks, V. P. Dravid, J. S. Du, S. B. Ebrahimi, H. Fan, O. K. Farha, C. A. Figg, T. D. Fink, C. M. Forsyth, H. Fuchs, F. M. Geiger, N. C. Gianneschi, K. J. Gibson, D. S. Ginger, S. Guo, J. S. Hanes, L. Hao, J. Huang, B. M. Hunter, F. Huo, J. Hwang, R. Jin, S. O. Kelley, T. J. Kempa<\/strong>, Y. Kim, S. Kudruk, S. Kumari, K. M. Landy, K.-B. Lee, N. J. Leon, J. Li, Y. Li, Z. Li, B. Liu, G. Liu, X. Liu, L. M. Liz-Marz\u00e1n, J. H. Lorch, T. Luo, R. J. Macfarlane, J. E. Millstone, R. R. Naik, A. E. Nel, C. Oetheimer, J. K. Hedlund Orbeck, S.-J. Park, A. Raj, N. Ramani, B. E. Partridge, N. A. Peppas, M. L. Personick, M. B. Ross, S. B. Ross, E. H. Sargent, T. Seideman, T. Sengupta, G. C. Schatz, D. S. Seferos, S. E. Seo, B. Shen, W. Shim, D. Shin, U. Simon, A. J. Sinegra, P. T. Smith, A. M. Spokoyny, P. J. Stang, A. H. Stegh, J. F. Stoddart, D. F. Swearer, W. Tan, M. H. Teplensky, C. S. Thaxton, D. R. Walt, M. X. Wang, Z. Wang, W. Wei, P. S. Weiss, P. H. Winegar, Y. Xia, Y. Xie, X. Xu, P. Yang, Y. Yang, Z. Ye, K. R. Yoon, C. Zhang, H. Zhang, K. Zhang, L. Zhang, X. Zhang, Y. Zhang, Z. Zhang, W. Zhou, S. Zhu, and W. Zhu<\/span>
    \n“33 Unresolved Questions in Nanoscience and Technology”<\/span>
    \nACS Nano<\/i> 19<\/strong>, 31933\u201331968 (2025).     Full text<\/a><\/span><\/li>\n
  6. O. Ambrozaite, R. Dziobek-Garrett, and T. J. Kempa<\/strong><\/span>
    \n“Tailoring light-matter interactions in 2D semiconductors”<\/span>
    \nAccounts of Chemical Research<\/i> 58<\/strong>, 2216\u20132228 (2025).     Full text<\/a><\/span><\/li>\n
  7. K. Kingsbury, B. Feng, J. Thomas, G. Bassen, A. M. Ferrenti, D. P. Goldberg, T. M. McQueen, M. A. Siegler, and T. J. Kempa<\/strong><\/span>
    \n“Manipulation of valence trapping through local order of Fe3<\/sub>O units in an intrinsically mixed-valent coordination polymer”<\/span>
    \nInorg. Chem.<\/i> 64<\/strong>, 10208\u201310218 (2025).     Full text<\/a><\/span><\/li>\n
  8. J. Victorin, A. Razpopov, T. Higo, R. Dziobek-Garrett, T. J. Kempa<\/strong>, S. Nakatsuji, R. Valent\u00ed, and N. Drichko*<\/span>
    \n“Exfoliation and optical properties of S=1 triangular lattice antiferromagnet NiGa2<\/sub>S4<\/sub>“<\/span>
    \nSci. Rep.<\/i> 14<\/strong>, 28040 (2024).     Full text<\/a><\/span><\/li>\n
  9. M. \u015aliwa, H. Zhang, J. Gao, B. O. Stephens, A. J. Patera, D. Raciti, P. D. Hanrahan, Z. A. Warecki, D. L. Foley, K. J. T. Livi, T. H. Brintlinger, M. L. Taheri, A. S. Hall, and T. J. Kempa<\/strong><\/span>
    \n“Selective CO2<\/sub> reduction electrocatalysis using AgCu nanoalloys prepared by a host-guest method”<\/span>
    \nNano Letters<\/i> 24<\/strong>, 13911\u201313918 (2024).     Full text<\/a><\/span><\/li>\n
  10. R. Dziobek-Garrett and T. J. Kempa<\/strong><\/span>
    \n“Excitons at the interface of 2D transition metal dichalcogenides and molecular semiconductors”<\/span>
    \nJ. Chem. Phys<\/i>. 160<\/strong>, 200902:1\u201311 (2024).     Full text<\/a><\/span><\/li>\n
  11. D. E. Weiss, Y. Zhu, K. Kingsbury, N. Blumenschein, A. L. Friedman, A. T. Hanbicki, and T. J. Kempa<\/strong><\/span>
    \n“Fabrication of single metal-organic framework crystal devices to inform energy conversion platforms”<\/span>
    \nACS Applied Energy Materials<\/i> 8<\/strong>, 43\u201350 (2023).     Full text<\/a><\/span><\/li>\n
  12. R. Dziobek-Garrett, S. Hilliard, S. Sriramineni, O. Ambrozaite, Y. Zhu, B. M. Hudak, T. H. Brintlinger, T. Chowdhury, and T. J. Kempa<\/strong><\/span>
    \n“Controlling morphology and excitonic disorder in monolayer WSe2<\/sub> grown by salt-assisted CVD methods”<\/span>
    \nACS Nanoscience Au<\/i> 3<\/strong>, 441\u2013450 (2023).     Full text<\/a><\/span><\/li>\n
  13. R. Dziobek-Garrett, C. J. Imperiale, M. W. B. Wilson, T. J. Kempa<\/strong><\/span>
    \n“Photon upconversion in a vapor deposited 2D inorganic\u2013organic semiconductor heterostructure”<\/span>
    \nNano Letters<\/i> 23<\/strong>, 4837\u20134843 (2023).     Full text<\/a><\/span><\/li>\n
  14. Y. Lei, T. Zhang, Y.-C. Lin, T. Granzier-Nakajima, G. Bepete, D. A. Kowalczyk, Z. Lin, D. Zhou, T. F. Schranghamer, A. Dodda, A. Sebastian, Y. Chen, Y. Liu, G. Pourtois, T. J. Kempa<\/strong>, B. Schuler, M. Edmonds, S. Y. Quek, U. Wurstbauer, S. Wu, N. Glavin, S. Das, S. Dash, J. Redwing, J. A. Robinson, M. Terrones<\/span>
    \n“Graphene and Beyond: Recent Advances in Two-Dimensional Materials Synthesis, Properties, and Devices”<\/span>
    \nACS Nanoscience Au<\/i> 6<\/strong>, 450\u2013485 (2022).     Full text<\/a><\/span><\/li>\n
  15. E. C. Sadler, T. Chowdhury, R. Dziobek-Garrett, O. Ambrozaite, C. Li, T. Mueller, and T. J. Kempa<\/strong><\/span>
    \n“Role of H2<\/sub> in the substrate-directed synthesis of size-tunable MoSe2<\/sub> nanoribbons for exciton engineering”<\/span>
    \nACS Appl. Nano Mater<\/i>. 5<\/strong>, 11423\u201311428 (2022).     Full text<\/a><\/span><\/li>\n
  16. B. Aguado, L. Bray, S. Caneva, J.-P. Correa-Baena, G. Di Martino, C. Fang, Y. Fang, P. Gehring, G. Grosso, X. Gu, P. Guo, Y. He, T. J. Kempa<\/strong>, M. Kutys, J. Li, T. Li, B. Liao, F. Liu, F. Molina-Lopez, A. Pickel, A. M. Porras, R. Raman, E. M. Sletten, Q. Smith, C. Tan, H. Wang, H. Wang, S. Wang, Z. Wang, G. Wehmeyer, L. Wei, Y. Yang, L. D. Zarzar, M. Zhao, Y. Zheng, S. Cranford<\/span>
    \n“35 challenges in materials science being tackled by PIs under 35(ish) in 2021”<\/span>
    \nMatter<\/i> 4<\/strong>, 3804\u20133810 (2021).     Full text<\/a><\/span><\/li>\n
  17. T. Chowdhury, K. Jo, S. B. Anantharaman, T. H. Brintlinger, D. Jariwala, and T. J. Kempa<\/strong><\/span>
    \n“Anomalous room-temperature photoluminescence from nano-strained MoSe2<\/sub> monolayers”<\/span>
    \nACS Photonics<\/i> 8<\/strong>, 2220\u20132226 (2021).     Full text<\/a><\/span><\/li>\n
  18. T. H. Brintlinger, T. Chowdhury, and T. J. Kempa<\/strong><\/span>
    \n“Identification of nanoscale localized strain in 2D transition metal dichalcogenide hybrid architectures through scanning transmission electron microscopy”<\/span>
    \nMicrosc. Microanal<\/i>. 27<\/strong>, 662\u2013664 (2021).     Full text<\/a><\/span><\/li>\n
  19. E. S. Thompson, H. Gangi, J. Hwang, and T. J. Kempa<\/strong><\/span>
    \n“Parallel synthesis of nanoscale Si superlattices through eutectic confinement for semiconductor p\u2013n junctions”<\/span>
    \nACS Appl. Nano Mater<\/i>. 4<\/strong>, 985\u2013989 (2021).     Full text<\/a><\/span><\/li>\n
  20. F. J. Claire, M. A. Solomos, J. Kim, G. Wang, M. A. Siegler, M. F. Crommie, and T. J. Kempa<\/strong><\/span>
    \n“Structural and electronic switching of a single crystal 2D metal-organic framework prepared by chemical vapor deposition”<\/span>
    \nNature Commun<\/i>.\u00a011<\/strong>, 5524 (2020).     Full text<\/a>\u00a0 [Featured as Editor’s Highlight<\/em>]<\/span><\/li>\n
  21. T. Chowdhury, E. C. Sadler, and T. J. Kempa<\/strong><\/span>
    \n“Progress and prospects in transition-metal dichalcogenide research beyond 2D”<\/span>
    \nChem. Rev<\/i>.\u00a0120<\/strong>, 12563\u201312591 (2020).     Full text<\/a><\/span><\/li>\n
  22. M. Sliwa, B. O. Stephens, Z. Zhang, and T. J. Kempa<\/strong><\/span>
    \n“Harnessing host-guest interactions to control structure at the nanoscale”<\/span>
    \nPure Appl. Chem<\/i>.\u00a092<\/strong>, 1895\u20131900 (2020).     Full text<\/a><\/span><\/li>\n
  23. E. C. Sadler and T. J. Kempa<\/strong><\/span>
    \n“Chalcogen incorporation process during high vacuum conversion of bulk Mo oxides to Mo dichalcogenides”<\/span>
    \nACS Appl. Electron. Mater<\/i>.\u00a02<\/strong>, 1020\u20131025 (2020).     Full text<\/a><\/span>
    \n\"\"<\/li>\n
  24. T. Chowdhury, J. Kim, E. C. Sadler, C. Li, S.-W. Lee, K. Jo, W. Xu, D. H. Gracias, N. V. Drichko, D. Jariwala, T. H. Brintlinger, T. Mueller, H.-G. Park, and T. J. Kempa<\/strong><\/span>
    \n“Substrate-directed synthesis of MoS2<\/sub> nanocrystals with tunable dimensionality and optical properties”<\/span>
    \nNature Nanotechnol<\/i>. 15<\/strong>, 29\u201334 (2020).     Full text<\/a><\/span>
    \n\"\"<\/li>\n
  25. M. A. Solomos, F. J. Claire, and T. J. Kempa<\/strong><\/span>
    \n“2D molecular crystal lattices: Advances in their synthesis, characterization, and application”<\/span>
    \nJ. Mater. Chem. A<\/i> 7<\/strong>, 23537\u201323562 (2019).     Full text<\/a> [Emerging Investigator Special Issue]<\/span>
    \n\"\"<\/li>\n
  26. Y. Wang, D. Sun, T. Chowdhury, J. S. Wagner, T. J. Kempa<\/strong>, and A. S. Hall<\/span>
    \n\u201cRapid room-temperature synthesis of a metastable ordered intermetallic electrocatalyst\u201d<\/span>
    \nJ. Am. Chem. Soc<\/i>.\u00a0141<\/strong>, 2342\u20132347 (2019).\u00a0    Full text<\/a><\/span>
    \n\"\"<\/li>\n
  27. M. M. Li, F. J. Claire, M. A. Solomos, S. M. Tenney, S. A. Ivanov, M. A. Siegler, and T. J. Kempa<\/strong><\/span>
    \n\u201cMolecular chains of coordinated dimolybdenum isonicotinate paddlewheel clusters\u201d<\/span>
    \nRSC Adv<\/i>.\u00a09<\/strong>, 16492\u201316495 (2019).\u00a0    Full text<\/a><\/span>
    \n\"\"<\/li>\n
  28. F. J. Claire, S. M. Tenney, M. M. Li, M. A. Siegler, J. S. Wagner, A. S. Hall, and T. J. Kempa<\/strong><\/span>
    \n“Hierarchically ordered two-dimensional coordination polymers assembled from redox-active dimolybdenum clusters”<\/span>
    \nJ. Am. Chem. Soc<\/i>.\u00a0140<\/b>, 10673\u201310676\u00a0(2018).\u00a0    Full text<\/a>\u00a0 [Communication]<\/span>
    \n\"\"<\/li>\n
  29. A. E. Kossak, B. O. Stephens, Y. Tian, P. Liu, M. Chen, and T. J. Kempa<\/strong><\/span>
    \n“Anisotropic and multicomponent nanostructures by controlled symmetry breaking of metal halide intermediates”<\/span>
    \nNano Lett<\/i>. 18<\/strong>, 2324\u20132328 (2018).     Full text<\/a><\/span>
    \n\"\"<\/li>\n
  30. N. Li, D. K. Bediako, R.-G. Hadt, D. Hayes, T. J. Kempa<\/strong>, F. Cube, D. C. Bell, L. X. Chen, and D. G. Nocera<\/span>
    \n“Influence of iron doping on tetravalent nickel content in catalytic oxygen evolving films”<\/span>
    \nProc. Natl. Acad. Sci. USA<\/i> 114<\/strong>, 1486\u20131491 (2017).     Full text<\/a><\/span><\/li>\n
  31. H. G. Park, S. K. Kim, K. D. Song, T. J. Kempa<\/strong>, and C. M. Lieber<\/span>
    \n“Multishell nanowires for next-generation photovoltaics”<\/span>
    \nProg. Electromagn. Res<\/i>. 1<\/strong>, 1864 (2016).     Full text<\/a><\/span><\/li>\n<\/ol>\n

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      \n
    1. T. J. Kempa<\/strong>, D. K. Bediako, S.-K. Kim, H.-G. Park, and D. G. Nocera<\/span>
      \n“High-throughput patterning of photonic structures with tunable periodicity”<\/span>
      \nProc. Natl. Acad. Sci. USA<\/em> 112<\/strong>, 5309\u20135313 (2015).\u00a0      Full text<\/a><\/span><\/li>\n
    2. T. J. Kempa<\/strong>, D. K. Bediako, E. C. Jones, C. M. Lieber, and D. G. Nocera<\/span>
      \n“Facile, rapid, and large-area periodic patterning of semiconductor substrates with sub-micron inorganic structures”<\/span>
      \nJ. Am. Chem. Soc<\/em>. 137<\/strong>, 3739\u20133742 (2015).\u00a0      Full text<\/a><\/span><\/li>\n
    3. C. M. Lemon, E. Karnas, X. Han, O. T. Bruns, T. J. Kempa<\/strong>, D. Fukumura, M. G. Bawendi, R. K. Jain, D. G. Duda, and D. G. Nocera<\/span>
      \n“Micelle-Encapsulated Quantum Dot-Porphyrin Assemblies as in Vivo Two-Photon Oxygen Sensors”<\/span>
      \nJ. Am. Chem. Soc<\/em>.\u00a0137<\/strong>, 9832\u20139842 (2015).\u00a0      Full text<\/a><\/span><\/li>\n
    4. K.-D. Song, T. J. Kempa<\/strong>, H.-G. Park, and S.-K. Kim<\/span>
      \n“Laterally assembled nanowires for ultrathin broadband solar absorbers”<\/span>
      \nOpt. Express<\/em> 22<\/strong>, A992\u2013A1000 (2014).\u00a0      Full text<\/a><\/span><\/li>\n
    5. S.-K. Kim, K.-D. Song, T. J. Kempa<\/strong>, R. W. Day, C. M. Lieber, and H.-G. Park<\/span>
      \n“Design of nanowire optical cavities as efficient photon absorbers”<\/span>
      \nACS Nano<\/em> 8<\/strong>, 3707\u20133714 (2014).\u00a0      Full text<\/a><\/span><\/li>\n
    6. T. J. Kempa<\/strong> and C. M. Lieber<\/span>
      \n“Semiconductor nanowire solar cells: Synthetic advances and tunable properties”<\/span>
      \nPure Appl. Chem<\/em>. 86<\/strong>, 13\u201326 (2014).\u00a0      Full text<\/a>\u00a0[IUPAC Young Chemist Prize Invited Review.]<\/span><\/li>\n
    7. T. J. Kempa<\/strong>, S.-K. Kim, H.-G. Park, R. W. Day, D. G. Nocera, and C. M. Lieber<\/span>
      \n“Facet-selective growth on nanowires yields multi-component nanostructures and photonic devices”<\/span>
      \nJ. Am. Chem. Soc<\/em>. 135<\/strong>, 18354\u201318357 (2013).\u00a0      Full text<\/a><\/span><\/li>\n
    8. T. J. Kempa<\/strong>, R. W. Day, S.-K. Kim, H.-G. Park, and C. M. Lieber<\/span>
      \n\u201cSemiconductor nanowires: A platform for exploring limits and concepts for nano-enabled solar cells\u201d<\/span>
      \nEnergy Environ. Sci<\/em>. 6<\/strong>, 719\u2013733 (2013).       Full text<\/a>\u00a0[Feature Review Article]<\/span><\/li>\n
    9. S.-K. Kim, R. W. Day, J. F. Cahoon, T. J. Kempa<\/strong>, K.-D. Song, H.-G. Park, and C. M. Lieber<\/span>
      \n“Tuning light absorption in core\/shell silicon nanowire photovoltaic devices through morphological design”<\/span>
      \nNano Lett<\/em>. 12<\/strong>, 4971\u20134976 (2012).\u00a0      Full text<\/a><\/span><\/li>\n
    10. T. J. Kempa<\/strong>, J. F. Cahoon, S.-K. Kim, R. W. Day, D. C. Bell, H.-G. Park, and C. M. Lieber<\/span>
      \n“Coaxial multishell nanowires with high-quality electronic interfaces and tunable optical cavities for ultrathin photovoltaics”<\/span>
      \nProc. Natl. Acad. Sci. USA<\/em> 109<\/strong>, 1407\u20131412 (2012).\u00a0      Full text<\/a><\/span><\/li>\n
    11. B. Tian, P. Xie, T. J. Kempa<\/strong>, D.C. Bell, and C. M. Lieber<\/span>
      \n\u201cSingle crystalline kinked semiconductor nanowire superstructures\u201d<\/span>
      \nNature Nanotechnol<\/em>. 4<\/strong>, 824\u2013829 (2009).\u00a0      Full text<\/a><\/span><\/li>\n
    12. Y. Dong, B. Tian, T. J. Kempa,<\/strong> and C. M. Lieber<\/span>
      \n\u201cCoaxial group III-nitride nanowire photovoltaics\u201d<\/span>
      \nNano Lett<\/em>. 9<\/strong>, 2183\u20132187 (2009).\u00a0      Full text<\/a><\/span><\/li>\n
    13. B. Tian, T. J. Kempa<\/strong>, and C. M. Lieber<\/span>
      \n“Single nanowire photovoltaics”<\/span>
      \nChem. Soc. Rev<\/em>. 38<\/strong>, 16\u201324 (2009).\u00a0      Full text<\/a><\/span><\/li>\n
    14. T. J. Kempa<\/strong>, B. Tian, D. Kim, J. Hu, X. Zheng, and C. M. Lieber<\/span>
      \n“Single and tandem axial p-i-n nanowire photovoltaic devices”<\/span>
      \nNano Lett<\/em>. 8<\/strong>, 3456\u20133460 (2008).\u00a0      Full text<\/a><\/span><\/li>\n
    15. B. Tian, X. Zheng, T. J. Kempa<\/strong>, Y. Fang, N. Yu, G. Yu, J. Huang, and C. M. Lieber<\/span>
      \n“Coaxial silicon nanowires as solar cells and nanoelectronic power sources”<\/span>
      \nNature<\/em> 449<\/strong>, 885\u2013890 (2007).\u00a0      Full text<\/a><\/span><\/li>\n
    16. T. Kempa<\/strong>, R. Farrer, M. Giersig, and J. T. Fourkas<\/span>
      \n“Photochemical synthesis and multiphoton luminescence of monodisperse silver nanocrystals”<\/span>
      \nPlasmonics<\/em> 1<\/strong>, 45\u201351 (2006).\u00a0      Full text<\/a><\/span><\/li>\n
    17. T. Kempa<\/strong>, D. Carnahan, M. Olek, M. Correa, M. Giersig, M. Cross, G. Benham, M. Sennett, Z. F. Ren, and K. Kempa<\/span>
      \n“Dielectric media based on isolated metallic nanostructures”<\/span>
      \nJ. Appl. Phys<\/em>. 98<\/strong>, 034310 (2005).\u00a0      Full text<\/a><\/span><\/li>\n
    18. Y. Wang, K. Kempa, B. Kimball, J. B. Carlson, G. Benham, W. Z. Li, T. Kempa<\/strong>, J. Rybczynski, A. Herczynski, and Z. F. Ren<\/span>
      \n“Receiving and transmitting light-like radio waves: Antenna effect in arrays of aligned carbon nanotubes”<\/span>
      \nAppl. Phys. Lett<\/em>. 85<\/strong>, 2607\u20132609 (2004).\u00a0      Full text<\/a><\/span><\/li>\n<\/ol>\n

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