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Harry C. Dorn

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American chemist

Harry Dorn
BornUnited States
NationalityAmerican
Occupation(s)Chemist and academic
Academic background
EducationBSc Chemistry, UCSB
PhD Chemistry, UCSD
Alma materUniversity of California, UCSB and UCSD
Academic work
InstitutionsVirginia Tech

Harry Dorn is an American chemist and a professor of chemistry at Virginia Tech, since 1974. He was a professor of Radiology at Virginia Tech Carilion School of Medicine and a professor at Virginia Tech Fralin Biomedical Research Institute from 2012 to 2017.

Dorn's research interests are focused on fullerenes, fullertubes, metallofullerenes, nanoparticles, and chemistry. He is most known for his work in the development and applications of nuclear magnetic resonance, (NMR), dynamic nuclear polarization (DNP), and discovery and functionalization of carbonaceous nanomaterials.

Early life and education

Dorn received a Bachelor of Science degree in chemistry in 1966 from the University of California, Santa Barbara followed by a PhD in Chemistry from the University of California, Davis in 1974.

Career

Starting his academic career in 1974, Dorn worked at the Virginia Polytechnic Institute and State University, where he held various positions including assistant professor of Chemistry and Associate Professor of Chemistry, until 1985. From 2012 to 2017, he worked as professor at the Virginia Tech Carilion (now Fralin Biomedical) Research Institute. He was a professor at the Virginia Tech Carilion Research Institute from 2012 to 2017 and held concurrent appointments as a professor of radiology at the Virginia Tech School of Medicine and Chemistry at the Virginia Tech College of Science.

Dorn was the Director of the Center for Self-Assembled Nanoscale Devices (CSAND) and the Director of the Carbonaceous Nanomaterials Center (CNC) from 2005 to 2010.

Research

Nuclear magnetic resonance spectroscopy (NMR) and dynamic nuclear polarization (DNP)

Dorn's early research offers an approach for the direct monitoring of supercritical fluids and chromatographic separations using 1H nuclear magnetic resonance and provides details into how NMR-based direct monitoring enhances process efficiency through real-time information acquisition on composition changes during separation stages. His research has proposed the coupling of the hydrogen nuclear magnetic resonance detector to the liquid chromatographic unit for identifying and differentiating various components present in jet and diesel fuel samples, such as alkylbenzenes, alkanes, and substituted naphthalenes. Furthermore, his work established the superiority of this approach over conventional methods such as refractive index detectors (RI). His work highlighted the potential of combining LC-^1H NMR and GC-MS techniques for more precise analysis of volatile samples. Later studies were expanded to the related magnetic resonance phenomena, dynamic nuclear polarization (DNP) which can allow greater NMR sensitivity and a fundamental understanding of electron-nuclear molecular interactions.

Discovery and biomedical applications of carbonaceous nanoparticles

During the early 1990s, Dorn in collaboration with scientists at IBM, published the first bond length measurements and solid-state dynamics of the soccer ball-shaped fullerene C60. In 1999, he and Stevenson, with X-ray structure determination reported a new family of trimetallic nitride template (TNT) endohedral metallofullerenes EMFs, M3N@C80 (M = Group IIIB and lanthanide metal ions) with the M3N metal cluster encapsulated in a high symmetry icosahedral fullerene cage, C80. His early research demonstrated that a functionalized Gd EMF nanoparticle could potentially serve as an effective contrast agent for MRI scans and be used in drug delivery systems. While exploring ways to produce nanoparticles with surface-bound proteins, his research substantiated that the processing conditions greatly influenced the localization of the protein outside the nanoparticle, thereby emphasizing the need to carefully select the appropriate processing method and conditions to achieve the desired protein localization and maximize the efficacy targeting of the nanoparticles for drug delivery, vaccine development, and biomedical imaging. In collaboration with Li on the potential application of amine functionalized TNT Endohedral metallofullerenes in the treatment of lower back and leg pain, his work demonstrated that these particles possess analgesic and anti-inflammatory properties in both in vitro and model studies, precisely due to their ability to scavenge free radicals and modulate inflammatory pathways, thereby providing a potential therapeutic approach for managing lower leg and back pain.

In a collaborative study with Steven Stevenson, Dorn discovered a new form of carbon that represents a marriage of fullerenes and single-walled nanotubes SWNTs called fullertubes. The structure of these soluble all carbon fullertubes have C60 hemispheres capped on the ends of SWNTs. As of February 2023, this paper has an altmetric score of all outputs from JACS of 96%.

Awards and honors

  • 1991 – IBM Research Award, IBM
  • 2010 – A.C. Lilly Faculty Fellow of Nanoscience, Virginia Polytechnic Institute & State University

Selected articles

  • Hedberg, K., Hedberg, L., Bethune, D. S., Brown, C. A., Dorn, H. C., Johnson, R. D., & De Vries, M. (1991). Bond lengths in free molecules of buckminsterfullerene, C60, from gas-phase electron diffraction. Science, 254(5030), 410–412.
  • Johnson, R. D., Yannoni, C. S., Dorn, H. C., Salem, J. R., & Bethune, D. S. (1992). C60 rotation in the solid state: Dynamics of a faceted spherical top. Science, 255(5049), 1235–1238.
  • Stevenson, S., Rice, G., Glass, T., Harich, K., Cromer, F., Jordan, M. R., ... & Dorn, A. H. (1999). Small-bandgap endohedral metallofullerenes in high yield and purity. Nature, 401(6748), 55–57.
  • Stevenson, S., Fowler, P. W., Heine, T., Duchamp, J. C., Rice, G., Glass, T., ... & Dorn, H. C. (2000). A stable non-classical metallofullerene family. Nature, 408(6811), 427–428.
  • Olmstead, M. M., de Bettencourt-Dias, A., Duchamp, J. C., Stevenson, S., Marciu, D., Dorn, H. C., & Balch, A. L. (2001). Isolation and structural characterization of the endohedral fullerene Sc3 N@ C78. Angewandte Chemie International Edition, 40(7), 1223–1225
  • Zhang, J.; Stevenson, S.; Dorn, H.C. (2013) Trimetallic Nitride Endohedral Metallofullerenes: Discovery, Structural Characterization, Reactivity, and Applications. Accounts of Chemical Research, 46(7), 1548–1557.
  • Liu, X.; Bourret, E.; Noble, C. A.; Cover, K.; Koenig, R. M.; Huang, R.; Franklin, H. M.; Xu Feng, Bodnar, R. J.; Zhang, F.; Tao, C.; Sublett, M. D.; Dorn, H. C. Stevenson, S.; Gigantic C120 Fullertubes: Prediction and Experimental Evidence for Isomerically Purified Metallic C120-D5d and Nonmetallic C120-D5h (10766). Journal of the American Chemical Society 144 (36), 16287-16291 (2022).
  • Bourret, E.; Liu, X.; Noble, C. A.; Cover, K.; Davidson, T. P.; Huang, R.; Koenig, R. M.; Reeves, K. S.; Vlassiouk, I. V.; Côté, M.; Baxter, J. S.; Lupini, A. R.; Geohegan, D. B.; Dorn, H. C.; Stevenson, S.; Colossal C130 Fullertubes: Soluble C130-D5h(1) Pristine Molecules with 70 Nanotube Carbons and Two 30-Atom Hemifullerene End-Caps. Journal of the American Chemical Society 145 (48), 25942–25947 (2023).

References

  1. ^ "Harry Dorn". chem.vt.edu.
  2. "Harry C. Dorn". scholar.google.com.
  3. ^ "Harry Dorn appointed Dr. A.C. Lilly, Jr., Faculty Fellow in Nanoscience". vtx.vt.edu.
  4. Haw, James F.; Glass, T. E.; Hausler, D. W.; Motell, Edwin.; Dorn, H. C. (June 1, 1980). "Direct coupling of a liquid chromatograph to a continuous flow hydrogen nuclear magnetic resonance detector for analysis of petroleum and synthetic fuels". Analytical Chemistry. 52 (7): 1135–1140. doi:10.1021/ac50057a032.
  5. Dorn, H. C. (May 1, 1984). "1H-NMR: A New Detector for liquid Chromatography". Analytical Chemistry. 56 (6): 747A–758A. doi:10.1021/ac00270a798.
  6. Gitti, R.; Wild, C.; Tsiao, C.; Zimmer, K.; Glass, T. E.; Dorn, Harry C. (March 13, 1988). "Solid/liquid intermolecular transfer of dynamic nuclear polarization. Enhanced flowing fluid proton NMR signals via immobilized spin labels". Journal of the American Chemical Society. 110 (7): 2294–2296. doi:10.1021/ja00215a047.
  7. Dorn, H. C.; Gitti, R.; Tsai, K. H.; Glass, T. E. (February 24, 1989). "The flow transfer of a bolus with 1H dynamic nuclear polarization from low to high magnetic fields". Chemical Physics Letters. 155 (2): 227–232. doi:10.1016/0009-2614(89)85354-0 – via ScienceDirect.
  8. Wang, X.; Isley III WC; Salido, S. I.; Sun, Z.; Song, L.; Tsai, K. H.; Cramer, C. J.; Dorn, H. C. (2015). "Optimization and prediction of the electron–nuclear dipolar and scalar interaction in 1H and 13C liquid state dynamic nuclear polarization - PMC". Chemical Science. 6 (11): 6482–6495. doi:10.1039/c5sc02499d. PMC 6054052. PMID 30090267.
  9. Hedberg, K.; Hedberg, L.; Bethune, D. S.; Brown, C. A.; Dorn, H. C.; Johnson, R. D.; DE Vries, M. (October 18, 1991). "Bond lengths in free molecules of buckminsterfullerene, c60, from gas-phase electron diffraction". Science. 254 (5030): 410–412. doi:10.1126/science.254.5030.410. PMID 17742230. S2CID 25860557 – via PubMed.
  10. Johnson, R. D.; Yannoni, C. S.; Dorn, H. C.; Salem, J. R.; Bethune, D. S. (March 6, 1992). "C60 rotation in the solid state: dynamics of a faceted spherical top". Science. 255 (5049): 1235–1238. Bibcode:1992Sci...255.1235J. doi:10.1126/science.255.5049.1235. PMID 17816831. S2CID 26401173 – via PubMed.
  11. Stevenson, S.; Rice, G.; Glass, T.; Harich, K.; Cromer, F.; Jordan, M. R.; Craft, J.; Hadju, E.; Bible, R.; Olmstead, M. M.; Maitra, K.; Fisher, A. J.; Balch, A. L.; Dorn, H. C. (September 13, 1999). "Small-bandgap endohedral metallofullerenes in high yield and purity". Nature. 401 (6748): 55–57. Bibcode:1999Natur.401...55S. doi:10.1038/43415. S2CID 4340875 – via www.nature.com.
  12. Fatouros, Panos P.; Corwin, Frank D.; Chen, Zhi-Jian; Broaddus, William C.; Tatum, James L.; Kettenmann, Birgit; Ge, Zhongxin; Gibson, Harry W.; Russ, Jennifer L.; Leonard, Anthony P.; Duchamp, James C.; Dorn, Harry C. (September 13, 2006). "In vitro and in vivo imaging studies of a new endohedral metallofullerene nanoparticle". Radiology. 240 (3): 756–764. doi:10.1148/radiol.2403051341. PMID 16837672 – via PubMed.
  13. Li, Tinghui; Murphy, Susan; Kiselev, Boris; Bakshi, Kanwarpal S.; Zhang, Jianyuan; Eltahir, Amnah; Zhang, Yafen; Chen, Ying; Zhu, Jie; Davis, Richey M.; Madsen, Louis A.; Morris, John R.; Karolyi, Daniel R.; LaConte, Stephen M.; Sheng, Zhi; Dorn, Harry C. (June 24, 2015). "A New Interleukin-13 Amino-Coated Gadolinium Metallofullerene Nanoparticle for Targeted MRI Detection of Glioblastoma Tumor Cells". Journal of the American Chemical Society. 137 (24): 7881–7888. doi:10.1021/jacs.5b03991. PMID 26022213 – via PubMed.
  14. Xiao, Li; Huang, Rong; Sulimai, Nurul; Yao, Ricky; Manley, Brock; Xu, Peng; Felder, Robin; Jin, Li; Dorn, Harry C.; Li, Xudong (June 20, 2022). "Amine Functionalized Trimetallic Nitride Endohedral Fullerenes: A Class of Nanoparticle to Tackle Low Back/Leg Pain". ACS Applied Bio Materials. 5 (6): 2943–2955. doi:10.1021/acsabm.2c00269. PMC 9719410. PMID 35575694.
  15. Liu, Xiaoyang; Bourret, Emmanuel; Noble, Cora A.; Cover, Kevin; Koenig, Ryan M.; Huang, Rong; Franklin, Hannah M.; Feng, Xu; Bodnar, Robert J.; Zhang, Fan; Tao, Chenggang; Sublett, D. Matthew; Dorn, Harry C.; Stevenson, Steven (September 14, 2022). "Gigantic C120 Fullertubes: Prediction and Experimental Evidence for Isomerically Purified Metallic [5,5] C120-D5d(1) and Nonmetallic [10,0] C120-D5h(10766)". Journal of the American Chemical Society. 144 (36): 16287–16291. doi:10.1021/jacs.2c06951. PMID 36037095. S2CID 251905727 – via PubMed.
  16. Bourret, Emmanuel; Liu, Xiaoyang; Noble, Cora A.; Cover, Kevin; Davidson, Tanisha P.; Huang, Rong; Koenig, Ryan M.; Reeves, K. Shawn; Vlassiouk, Ivan V.; Côté, Michel; Baxter, Jefferey S.; Lupini, Andrew R.; Geohegan, David B.; Dorn, Harry C.; Stevenson, Steven (December 6, 2023). "Colossal C 130 Fullertubes: Soluble [5,5] C 130 -D 5h (1) Pristine Molecules with 70 Nanotube Carbons and Two 30-Atom Hemifullerene End-caps". Journal of the American Chemical Society. 145 (48): 25942–25947. doi:10.1021/jacs.3c09082. ISSN 0002-7863. PMID 37890151. S2CID 264543181.
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