Torsten Hegmann
Materials Science
Director - Advanced Materials & Liquid Crystal Institute
Office Location:
201E Liquid Crystals & Materials Science Building
Contact Information
Email:
Phone:
330-672-7770
Fax:
330-672-2796
Personal Website:
Biography
CAREER
- Director, Advanced Materials and Liquid Crystal Institute (AMLCI), since 07/2019
- Associate Director, Advanced Materials and Liquid Crystal Institute (AMLCI), 09/2018 - 06/2019
- Interim Associate Director, LCI, 12/2017 - 08/2018
- Full Professor, 麻豆影院, since 2015
- Fellow, Royal Society of Chemistry (FRSC), since 2016
- CSO - Torel LLC
- Associate Professor & Ohio Research Scholar in Science and Technology of Advanced Nanomaterials, Liquid Crystal Institute, 麻豆影院 State, 2011-2015
- Interim Director Regenerative Medicine Initiative at KSU, ReMedIKS, 麻豆影院 State, 2012-2015
- Adjunct Associate Professor, University of Manitoba, Department of Chemistry & Department of Pharmacology and Therapeutic, 2011-2015
- Associate Professor, University of Manitoba (Canada), Chemistry, 2008-2011
- Assistant Professor, University of Manitoba (Canada), Chemistry, 2003-2008
Select Opportunities
- Summer 2022 REU Project: "Chiral Nanoparticles in Liquid Crystal Phases"
PUBLICATIONS
- A. Gowda, S. K. Pathak, G. A. R. Rohaley, G. Acherjee, A. Oprandi, R. Williams, M. E. Pr茅v么t, T. Hegmann, Mater. Horizons 2023, in press. "Organic chiral nano- and microfilaments: types, formation, and template applications"
- B. Sezgin, J. Liu, D. P. N. Gon莽alves, C. Zhu, T. Tilki, M. E. Pr茅v么t, T. Hegmann, ACS Nanoscience Au 2023, 3, 295-309. 鈥淐ontrolling structure and morphology of organic nanofilaments using external stimuli鈥 Featured on the Cover
- D. P. N. Gon莽alves, T. Ogolla, T. Hegmann, ChemPhysChem 2023, 24, e202200685. 鈥淐hirality transfer from an innately chiral nanocrystal core to a nematic liquid crystal 2: Lyotropic chromonic liquid crystals鈥 Cover Feature
- N. Shen, J. Bu, M. E. Pr茅v么t, T. Hegmann, J. P. Kennedy, W. Xu, Macromol. Rapd. Commun. 2023, 44, 2200109. 鈥淢acromolecular engineering and additive manufacturing of poly(styrene-b-isobutylene-b-styrene) SIBS II鈥
- B. Sezgin, T. Hegmann, J. Mater. Chem. C 2022, 10, 18120-18126. 鈥淎zobenzene-decorated cellulose nanocrystals as photo-switchable chiral solutes in nematic liquid crystals鈥 Featured on the Cover
- A. Poryvai, M. 艩mahel, M. 艩vecov谩, A. Nemati, S. Shadpour, P. Ulbrich, T. Ogolla, J. Liu, V. Novotn谩, M. Veverka, J. Vejpravov谩, T. Hegmann, M. Kohout, ACS Nano 2022, 16, 11833-11841. 鈥淐hiral, magnetic and photosensitive liquid crystalline nanocomposites based on multifunctional nanoparticles and achiral liquid crystals鈥
- A. Sharma, T. Mori, A. Nemati, D. P. N. Gon莽alves, L. Querciagrossa, C. Zannoni, T. Hegmann, Mater. Adv. 2022, 3, 3346-3354. 鈥淭he significance of nanoparticle shape in chirality transfer to a surrounding nematic liquid crystal reporter medium鈥 Popular Advances Collection 2022 + Featured on the Back Cover
- J. Liu, Y. Molard, M. E. Pr茅v么t, T. Hegmann, ACS Appl. Mater. Interfaces 2022, 14, 29398-29411. 鈥淗ighly tunable circularly polarized emission of an aggregation-induced emission dye using helical nano- and microfilaments as supramolecular chiral templates鈥
- A. Nemati, L. Querciagrossa, C. Callison, S. Shadpour, D. P. N. Gon莽alves, T. Mori, X. Cui, R. Ai, J. Wang, C. Zannoni, T. Hegmann, Sci. Adv. 2022, 8, eabl4385. 鈥淓ffects of shape and solute-solvent compatibility on the efficacy of chirality transfer: nanoshapes in nematics鈥
- D. P. N. Gon莽alves, T. Hegmann, Angew. Chem. Int. Ed. 2021, 60, 17344-17349; Angew. Chem. 2021, 133, 17484-17489. 鈥淐hirality transfer from an innately chiral nanocrystal core to a nematic liquid crystal: Surface鈥恗odified cellulose nanocrystals鈥 Hot Paper + Featured on the Inside Front Cover
- J. Liu, S. Shadpour, A. Nemati, M. E. Pr茅v么t, E. Hegmann, C. Zhu, T. Hegmann, Liq. Cryst. 2021, 48, 1129-1139.. 鈥淏inary mixtures of bent-core molecules forming distinct types of B4 phase nano- and microfilament鈥
- D. N. P. Gon莽alves, M. E. Pr猫v么t, S. Ustunel, T. Ogolla, A. Nemati, S. Shadoour, T. Hegmann, Liq. Cryst. Rev. 2021, 9, 1-34, 鈥淩ecent progress at the interface between nanomaterial chirality and liquid crystals鈥
- J. Liu, S. Shadpour, M. E. Pr茅v么t, M. Chirgwin, A. Nemati, E. Hegmann, R. P. Lemieux, T. Hegmann, ACS Nano 2021, 15, 7249-7270. 鈥淢olecular conformation of bent-core molecules affected by chiral side chains dictates polymorphism and chirality in organic nano- and microfilaments鈥
- K. Perera, A. Nemati, E. Mann, T. Hegmann, A. J谩kli, ACS Appl. Mater. Interfaces 2021, 13, 4574-4582. 鈥淐onverging microlens array using nematic liquid crystals doped with chiral nanoparticles鈥 Featured on the Cover
- S. Ustunel, M. E. Pr茅v么t, G. R. Rohaley, C. Webb, B. Yavitt, G. Freychet, M. Zhernenkov, R. Pindak, C. Zhu, E. Schaible, T. Hegmann, R. J. Clements, E. Hegmann, Mater. Adv. 2021, 2, 464-476. 鈥淢echanically tunable elastomer and cellulose nanocrystal composites as scaffolds for in vitro cell studies鈥
- K. Perera, A. Nemati, E. Mann, T. Hegmann, A. J谩kli, Proc. SPIE 2020, 11472, 114720O. 鈥淥ptical properties of nematic microlenses doped with chiral nanoparticles鈥
- M. E. Pr茅v么t, A. Nemati, T. R. Cull, E. Hegmann, T. Hegmann, Adv. Mater. Technol. 2020, 5, 2000058. 鈥淎 zero-power, optical ppt- to ppm-level toxic gas and vapor sensor with image, text and analytical capabilities鈥 Featured on the Inside Back Cover
- S. Shadpour, A. Nemati, J. Liu, T. Hegmann, ACS Appl. Mater. Interfaces 2020, 12, 13456-13463. 鈥淒irecting the handedness of helical nanofilaments confined in nanochannels using axially chiral binaphthyl dopants鈥
- S. Shadpour, A. Nemati, M. Salamo艅czyk, M. E. Pr茅v么t, J. Liu, N. J. Boyd, M. R. Wilson, C. Zhu, E. Hegmann, A. I. J谩kli, T. Hegmann, Small 2020, 16, 1905591. 鈥淢issing link between helical nano- and microfilaments in B4 phase bent-core liquid crystals, and deciphering which chiral center controls the filament handedness鈥
- M. E. Pr茅v么t, J. P. Vanegas, J. P茅rez-Prieto, Y. Molard, E. Hegmann, T. Hegmann, 鈥淓missive Nanomaterials and liquid crystals鈥, in 21. Century Nanoscience - A Handbook, Ed. K. D. Sattler, Taylor & Francis, 2020, vol. 5, Ch.6, 27-76.
- A. Nemati, S. Shadpour, L. Querciagrossa, T. Mori, C. Zannoni, T. Hegmann, ACS Nano 2019, 13, 10312-10326. 鈥淗ighly sensitive, tunable chirality amplification through space visualized for gold nanorods capped with axially chiral binaphthyl derivatives鈥
- M. T. Murachver, A. Nemati, M. Salamo艅czyk, C. Bullock, Z. Sabata, H. Rahmani, T. Vorobiova, A. Izadnegahdar, S. M. Salili, V. Norman, C. Zhu, T. Hegmann, S. N. Sprunt, J. T. Gleeson, A. I. J谩kli, Soft Matter 2019, 15, 3283-8290. 鈥淚ndication of a Twist-Grain-Boundary-Twist-Bend Phase of flexible core bent-shape chiral dimers鈥
- S. Shadpour, A. Nemati, N. J. Boyd, L. Li, M. E. Pr茅v么t, S. L. Wakerlin, J. P. Vanegas, M. Salamo艅czyk, E. Hegmann, C. Zhu, M. R. Wilson, A. I. J谩kli, T. Hegmann, Mater. Horizons 2019, 6, 959-968. 鈥淗eliconical-layered nanocylinders (HLNCs) 鈥 hierarchical self-assembly in a unique B4 phase liquid crystal morphology鈥 Featured on the Journal Cover
- S. Shadpour, J. P. Vanegas, A. Nemati, T. Hegmann, ACS Omega 2019, 4, 1662-1668. 鈥淎mplification of chirality by adenosine monophosphate-capped luminescent gold nanoclusters in nematic lyotropic chromonic liquid crystal tactoids鈥
- A. Nemati, S. Shadpour, L. Querciagrossa, L. Li, T. Mori, M. Gao, C. Zannoni, T. Hegmann, Nat. Commun. 2018, 9, 3908. 鈥淐hirality amplification by desymmetrization of chiral ligand-capped nanoparticles to nanorods quantified in soft condensed matter鈥
- N. Beals, M. Model, M. Worden, T. Hegmann, S. Basu, ACS Appl. Mater. Interfaces 2018, 10, 6869-6878. 鈥淚ntermolecular G-quadruplex induces hyaluronic acid-DNA superpolymers causing cancer cell swelling, blebbing and death鈥
- M. Reznikov, D. Andrienko, V.N. Boychuk, A. Bubnov, L. Dolgov, I. Dozov, P. Davidson, A. Gabovich, T. Hegmann, I. Ilchishin, R. Karapinar, P. Korniychuk, D. Stepanchikov, O. Tkachenko, Y. Kurioz, M. Manevich, A.M. Negriyko, J. Parka, V. Pergamenshchik, C. Rosenblatt, K. Singer, I. Terenetskaya, V. Vashchenko, M. Vasnetsov, M. Soskin, T. Wolinski, O.V. Yaroshchuk, J. Mol. Liq. 2018, 267, 11-28. 鈥淩ecollections of Professor Yuriy Reznikov鈥 - 鈥淧ersonal views and the beginnings of nanoparticle dispersions in liquid crystals鈥
- J. Wang, L. Bergquist, J.-I. Hwang, K.-J. Kim, J.-H. Lee, T. Hegmann, A. J谩kli, Liq. Cryst. 2018, 45, 333-340. 鈥淲ide temperature-range, multi-component, optically isotropic antiferroelectric bent-core liquid crystal mixtures for display applications鈥
- L. Li, M. Salamonczyk, S. Shadpour, C. Zhu, A. J谩kli, T. Hegmann, Nat. Commun. 2018, 9, 714. 鈥淎n unusual type of polymorphism in a liquid crystal鈥
- L. Bergquist, T. Hegmann, ChemNanoMat 2017, 3, 863-868. 鈥淐hiral amplification by L-cysteine-capped gold nanoparticles in lyotropic chromonic liquid crystals鈥 and Featured on the Journal Cover
- T. Mori, A. Sharma, A. Nemati, L. Bergquist, T. Hegmann, Proc. SPIE 2017, 10361, 103610M. 鈥淓ffects of size and ligand density on the chirality transfer from chiral ligand-capped nanoparticles to nematic liquid crystals鈥
- B. Atorf, T. Funck, T. Hegmann, S. Kempter, T. Liedl, K. Martens, H. M眉hlenbernd, T. Zentgraf, B. Zhang, H. Kitzerow, M. Urbanski, Liq. Cryst. 2017, 44, 1929-1947. 鈥淟iquid crystals and precious metal: From nanoparticle dispersions to functional plasmonic nanostructures鈥
- S. M. Salili, M. Worden, A. Nemati, D. W. Miller, T. Hegmann, Nanomaterials 2017, 7, 211. 鈥淪ynthesis of distinct iron oxide nanomaterial shapes using lyotropic liquid crystal solvents鈥
- B. Ro啪i膷, J. Fresnais, C. Molinaro, J. Calixte, S. Umadevi, S. Lau-Truong, N. F茅lidj, T. Kraus, F. Charra, V. Dupuis, T. Hegmann, C. Fiorini-Debuisschert, B. Gallas, E. Lacaze, ACS Nano 2017, 11, 6728-6738. 鈥淥riented gold nanorods and gold nanorod chains within smectic liquid crystal topological defects鈥
- L. Bergquist, C. Zhang, R.R. Ribeiro de Almeida, B. Pellegrene, M. Salamonczyk, M. Kim, J.-I. Hwang, K.-J. Kim, J.-H. Lee, A. J谩kli, T. Hegmann, ChemOpen 2017, 6, 196-200. 鈥淎n optically isotropic antiferroelectric liquid crystal (OI-AFLC) display mode operating over a wide temperature range using ternary bent-core liquid crystal mixtures鈥 Featured on the Journal Cover
- A. Sharma, T. Mori, C. J. Mahnen, H. R. Everson, M. T. Leslie, A. d. Nielsen, L. Lussier, C. Zhu, C. Malcuit, T. Hegmann, J. A. McDonough, E. J. Freeman, L. T. J. Korley, R. J. Clements, E. Hegmann, Macromol. Biosci. 2017, 17, 1600278. 鈥淓ffects of structural variations on the cellular response and mechanical properties in biocompatible, biodegradable, and porous smectic liquid crystal elastomers鈥 Most accessed in 11/2016
- T. Mori, T. Hegmann, J. Nanopart. Res. 2016, 18, 295. 鈥淎 Practical Guide to Calculate the Number of Atoms and Overall Composition of Metal Nanoparticles using Geometric Considerations鈥
- Z. Sun, M. Worden, Y. Wroczynskyj, J. A. Thliveris, J. van Lierop, T. Hegmann, D. W. Miller, J. Mater. Chem. B 2016, 4, 5913-5920. 鈥淒ifferential internalization of brick shaped iron oxide nanoparticles by endothelial cells鈥
- A. Sharma, M. Urbanski, T. Mori, H.-S. Kitzerow, T. Hegmann, Metallic and semiconducting nanoparticles in liquid crystals, In Particles in Liquid Crystals, Eds. J. Lagerwall, G. Scalia, World Scientific Publ., Ch. 14, 497-535 (2016)
- L. Li, M. Salamonczyk, A. J谩kli, T. Hegmann, Small 2016, 12, 3944-3955. 鈥淎 dual modulated homochiral helical nanofilament phase with local columnar ordering formed by bent core liquid crystals: Effects of molecular chirality鈥 - Selected as VIP Paper,
- Z. Sun, M. Worden, J. A. Thliveris, S. Hombach-Klonisch, T. Klonisch, J. van Lierop, T. Hegmann, D. W. Miller, Nanomed. Nanotech. Biol. Med. 2016, 12, 1775-1784. 鈥淏iodistribution of negatively charged iron oxide nanoparticles (IONPs) in mice and enhanced brain delivery using lysophosphatidic acid (LPA)鈥
- A. Sharma, D. Hofmann, T. Hegmann, Liq. Cryst. 2016, 43, 828-838. 鈥淧atterned alignment of nematic liquid crystals generated by ink-jet printing of gold nanoparticles and emissive carbon dots on both flexible polymer and rigid glass substrates鈥
- R. K. Shukla, A. Sharma, T. Mori, T. Hegmann, W. Haase, Liq. Cryst. 2016, 43, 861. Addendum to: 鈥淓ffect of two different size chiral ligand-capped gold nanoparticle dopants on the electrooptic and dielectric dynamics of a ferroelectric liquid crystal mixture鈥
- R. K. Shukla, A. Sharma, T. Mori, T. Hegmann, W. Haase, Liq. Cryst. 2016, 43, 695-703. 鈥淓ffect of two different size chiral ligand-capped gold nanoparticle dopants on the electrooptic and dielectric dynamics of a ferroelectric liquid crystal mixture鈥
- T. Mori, A. Sharma, T. Hegmann, ACS Nano 2016, 10, 1552-1564. 鈥淪ignificant enhancement of the chiral correlation lengths in nematic liquid crystals by gold nanoparticle surfaces featuring axially chiral binaphthyl ligands鈥
- M. Urbanski, J. Mirzaei, A. Sharma, D. Hofmann, H.-S. Kitzerow, T. Hegmann, Liq. Cryst. 2016, 43, 183-194. 鈥淐hemically and thermally stable, emissive carbon dots as viable alternatives to semiconductor quantum dots for emissive nematic liquid crystal鈥搉anoparticle mixtures with lower threshold voltage鈥
- A. Labeeb, H. F. Gleeson, T. Hegmann, Appl. Phys. Lett. 2015, 107, 232903. 鈥淧olymer stabilization of the smectic C-alpha* liquid crystal phase 鈥 over tenfold thermal stabilization by confining networks of photo-polymerized reactive mesogens鈥
- M. Worden, L. Bergquist, T. Hegmann, RSC Advances 2015, 5, 100384-100389. 鈥淎 quick and easy synthesis of fluorescent iron oxide nanoparticles featuring a luminescent carbonaceous coating via in situ pyrolysis of organosilane ligands鈥
- M. Worden, M. A. Bruckman, M.-H. Kim, N. F. Steinmetz, J. M. Kikkawa, C. LaSpina, T. Hegmann, J. Mater. Chem. B 2015, 3, 6877-6884. 鈥淎queous synthesis of polyhedral 鈥渂rick-like鈥 iron oxide nanoparticles for hyperthermia and T2 MRI contrast enhancement鈥 -
- B. M. Yao, Y. S. Gui, M. Worden, T. Hegmann, M. Xing, X. S. Chen, W. Lu, Y. Wroczynskyj, J. van Lierop, C.-M. Hu, Appl. Phys. Lett. 2015, 106, 142406. 鈥淨uantifying complex permittivity and permeability of magnetic nanoparticles鈥
- R. K. Shukla, J. Mirzaei, A. Sharma, D. Hofmann, T. Hegmann, W. Haase, RSC Advances 2015, 5, 34491-34496. 鈥淓lectro-optic and dielectric properties of a ferroelectric liquid crystal doped with chemically and thermally stable, emissive carbon dots鈥
- T. Bera, E. J. Freeman, J. A. McDonough, R. J. Clements, C. Malcuit, T. Hegmann, E. Hegmann, ACS Appl. Mater. Interfaces 2015, 7, 14528-14535. 鈥淟iquid crystal elastomer microspheres as 3D cell scaffolds supporting the attachment and proliferation of myoblasts鈥
- A. Sharma, A. Neshat, C. J. Mahnen, A. d. Nielsen, J. Snyder, T. L. Stankovich, B. G. Daum, E. M. LaSpina, G. Beltrano, S. Li, B.-W. Park, R. J. Clements, E. J. Freeman, C. Malcuit, J. A. McDonough, L. T. J. Korley, T. Hegmann, E. Hegmann, Macromol. Biosci. 2015, 15, 200-214. 鈥淏iocompatible, biodegradable and porous liquid crystal elastomer scaffolds for spatial cell cultures鈥, Most accessed in 10/2014,
- X. Feng, L. Sosa-Vargas, S. Umadevi, T. Mori, Y. Shimizu, T. Hegmann, Adv. Funct. Mater. 2015, 25, 1180-1192. 鈥淒iscotic liquid crystal functionalized gold nanorods: 2- and 3D self-assembly plus macroscopic alignment and increased charge carrier mobility in hexagonal columnar liquid crystal hosts affected by molecular packing and 蟺-蟺 interactions鈥
- S. Umadevi, G. Venkatchalam, T. Hegmann, 鈥淣anoparticles: Additives and building blocks for liquid crystal phases鈥, in Handbook of Liquid Crystals - 2nd Edition, Eds. J. W. Goodby et al., Wiley-VCH, Vol. 6, Ch. 2, 27-76 (2014)
- A. Sharma, T. Mori, H.-C. Lee, M. Worden, E. Bidwell, T. Hegmann, ACS Nano 2014, 8, 11966-11976. 鈥淒etecting, visualizing, and measuring gold nanoparticle chirality using helical pitch measurements in nematic liquid crystal phases鈥
- K.-S. Jang, J. C. Johnson, E. Hegmann, T. Hegmann, L. T. J. Korley, Liq. Cryst. 2014, 41, 1473-1482. 鈥淏iphenyl-based liquid crystals for elevated temperature processing of polymers鈥
- Z. Sun, M. Worden, Y. Wroczynskyj, V. Yathindranath, J. van Lierop, T. Hegmann, D. W. Miller, Int. J. Nanomed. 2014, 9, 3013-3026. 鈥淢agnetic field enhanced convective diffusion of iron oxide nanoparticles in an osmotically disrupted cell culture model of the blood-brain barrier鈥
- R. K. Shukla, X. Feng, S. Umadevi, T. Hegmann, W. Haase, Chem. Phys. Lett. 2014, 599, 80-85. 鈥淚nfluence of different amount of functionalized bulky gold nanorods dopant on the electrooptical, dielectric and optical properties of the FLC host鈥
- M. Urbanski, J. Mirzaei, T. Hegmann, H.-S. Kitzerow, Proceedings 41. German Conference on Liquid Crystals 2014, P9, 105-109. 鈥淒ispersions of functionalized gold nanoparticles in nematic liquid crystals鈥
- J. Mirzaei, M. Urbanski, H.-S. Kitzerow, T. Hegmann, ChemPhysChem 2014, 15, 1381-1394. 鈥淪ynthesis of liquid crystal silane functionalized gold nanoparticles and their effects on optical and electro-optic properties of a structurally related nematic liquid crystal鈥
- M. Urbanski, J. Mirzaei, T. Hegmann, H.-S. Kitzerow, ChemPhysChem 2014, 15, 1395-1404. 鈥淣anoparticle doping in nematic liquid crystals: Distinction between surface and bulk effects by numerical simulations鈥
- S. Umadevi, H.-C. Lee, V. Ganesh, X. Feng, T. Hegmann, Liq. Cryst. 2014, 41, 265-276. 鈥淎 versatile, one-pot synthesis of gold nanostars with long, well-defined thorns using a lyotropic liquid crystal template鈥
- M. Reznikov, A. Sharma, T. Hegmann, Part. Part. Syst. Charact. 2014, 31, 257-265. 鈥淚nk-jet printed nanoparticle alignment layers: Easy design and fabrication of patterned alignment layers for nematic liquid crystals" 鈥 Inside Cover Article
- V. Yathindranath, M. Worden, Z. Sun, D. W. Miller, T. Hegmann, RSC Advances 2013, 3, 23722-23729. 鈥淎 general synthesis of metal (Mn, Fe, Co, Ni, Cu, Zn) oxide and silica nanoparticles based on a low temperature reduction/hydrolysis pathway鈥
- V. Yathindranath, Z. Sun, M. Worden, L. J. Donald, J. A. Thliveris, D. W. Miller, T. Hegmann, Langmuir 2013, 29, 10850-10858. 鈥淥ne-pot synthesis of iron oxide nanoparticles with functional silane shell: A versatile general precursor for conjugations and biomedical applications鈥
- T. Hegmann, International Innovation Report 2013, 9, 53-55. 鈥淢odulating the properties of liquid crystals using nanoparticles as dopants鈥 - Feature Article/Interview
- V. Yathindranath, M. Worden, V. Ganesh, M. Inokuchi, T. Hegmann, RSC Adv. 2013, 3, 9210-9213. 鈥淗ighly crystalline iron/iron oxide nanosheets via liquid crystal templating鈥
- S. Umadevi, X. Feng, T. Hegmann, Adv. Funct. Mater. 2013, 23, 1393-1403. 鈥淟arge area self-assembly of nematic liquid crystal-functionalized gold nanorods" 鈥 Frontispiece Article
- Z. Sun, V. Yathindranath, M. Worden, J. A. Thliveris, S. Chu, F. E. Parkinson, T. Hegmann, D. W. Miller, Int. J. Nanomed. 2013, 8, 961-970. 鈥淐haracterization of cellular uptake and toxicity of aminosilane-coated iron oxide nanoparticles with different charge in CNS relevant cell culture models鈥
- D. F. Moore, V. Yathindranath, T. Hegmann, M. Pelletier, D. W. Miller, R. Schiffmann, 鈥淒irected drug convection using magnetic nanoparticles as therapeutic carriers - Meeting the challenge of specific brain pharmaco-therapeutics鈥, in Nanoneurosurgery and Nanoneuroscience (Taylor & Francis), 2013, Ch. 11, 147-155.
- J. Mirzaei, M. Urbanski, H.-S. Kitzerow, T. Hegmann, Phil. Trans. R. Soc. A 2013, 371, 20120256. 鈥淗ydrophobic gold nanoparticles via silane conjugation - chemically and thermally robust nanoparticles as dopants for nematic liquid crystals鈥
- S. Umadevi, G. Venkatchalam, T. Hegmann, 鈥淣anoparticles as additives and building blocks for liquid crystal phases鈥, in Handbook of Liquid Crystals - 2nd Ed. (Wiley-VCH), 2013, Vol. 5, Ch. 16.
- J. Mirzaei, M. Reznikov, T. Hegmann, J. Mater. Chem. 2012, 22, 22350-22365. "Quantum dots as liquid crystal dopants鈥 鈥 Feature Article + Cover
- A. Rudzki, A. Lapanik, B. Kinkead, H. Qi, T. Hegmann, W. Haase, Soft Matter 2012, 8, 8722-8728. 鈥淓lectrooptical and dielectric properties of alkylthiol-capped gold nanoparticle-ferroelectric liquid crystal nanocomposites: Influence of chain length and tethered liquid crystal functional groups鈥
- J. Mirzaei, R. Sawatzky, A. Sharma, M. Urbanski, K. Yu, H.-S. Kitzerow, T. Hegmann, Proc. SPIE 2012, 8279, 827983 (9 pages). 鈥淣ew developments in nanoparticle-liquid crystal composites: from magic-sized semiconductor nanoclusters to alignment pattern formation via nanoparticle stenciling鈥
- O. Stamatoiu, J. Mirzaei, X. Feng, T. Hegmann, Top. Curr. Chem. 2012, 318, 331-393. 鈥淣anoparticles in liquid crystals and liquid crystalline nanoparticles鈥
- A. Sharma, M. Worden, T. Hegmann, Ferroelectrics 2012, 431, 154-163. 鈥淣anoparticle-promoted thermal stabilization of room temperature cholesteric blue phase mixtures鈥
- S. Umadevi, X. Feng, T. Hegmann, Ferroelectrics 2012, 431, 164-175. 鈥淏ent-core and nematic liquid crystal functionalized gold nanorods鈥
- U. Shivakumar, J. Mirzaei, X. Feng, A. Sharma, P. Moreira, T. Hegmann, Liq. Cryst. 2011, 38, 1495-1514. 鈥淣anoparticles 鈥 versatile, promising yet challenging dopants for liquid crystals鈥
- J. Mirzaei, M. Urbanski, Kui Yu, H.-S. Kitzerow, T. Hegmann, J. Mater. Chem. 2011, 21, 12710-12716. 鈥淣anocomposites of a nematic liquid crystal doped with magic-sized CdSe nanocrystals as nanoscale additives鈥
- H. Qi, T. Hegmann, Liq. Cryst. Today 2011, 20, 102-114. 鈥淟iquid crystal-gold nanoparticle composites鈥
- V. Yathindranath, L. Rebbough, D. F. Moore, D. W. Miller, J. van Lierop, T. Hegmann, Adv. Funct. Mater. 2011, 21, 1457-1464. 鈥淎 versatile, one-step, low-temperature, reductive synthesis to bare, hydrophilic or hydrophobic magnetite nanoparticles鈥 鈥 Frontispiece Article
- B. Kinkead, M. Urbanski, H. Qi, H.-S. Kitzerow, T. Hegmann, Proc. SPIE 2010, 7775, 777511. 鈥淎lignment and electro-optic effects in nanoparticle-doped nematic liquid crystals鈥
- M. Urbanski, B. Kinkead, T. Hegmann, H.-S. Kitzerow, Liq. Cryst. 2010, 37, 1151-1156. 鈥淒irector field of birefringent stripes in liquid crystal/nanoparticle dispersions鈥 鈥 Front Cover Article
- M. Urbanski, B. Kinkead, H. Qi, T. Hegmann, H.-S. Kitzerow, Nanoscale 2010, 2, 1118- 1121. 鈥淓lectroconvection in nematic liquid crystals via nanoparticle doping鈥 鈥 Inside Front Cover Article
- B. Kinkead, T. Hegmann, J. Mater. Chem. 2010, 20, 448-458. 鈥淓ffects of size, capping agent, and concentration of CdSe and CdTe quantum dots doped into a nematic liquid crystal on the optical and electro-optic properties of the final colloidal liquid crystal mixture鈥 鈥 Back Cover
- V. Yathindranath, K. Potter, C. B. Fowler, T. Hegmann, J. van Lierop, D. F. Moore, Nanotechnology 2009, 20, 405101. 鈥淪imultaneous magnetically-directed drug convection and MR imaging鈥 鈥 Article of Particular Interest by the Editor & Highlighted in IOP鈥檚
- H. Qi, T. Hegmann, ACS Appl. Mater. Interfaces 2009, 1, 1731-1738. 鈥淢ultiple alignment modes for nematic liquid crystals doped with alkylthiol-capped gold nanoparticles鈥
- H. Qi, B. Kinkead, V. M. Marx, H. R. Zhang, T. Hegmann, ChemPhysChem 2009, 10, 1211-1218. 鈥淢iscibility and alignment effects of mixed monolayer cyanobiphenyl liquid crystal-capped gold nanoparticles in nematic cyanobiphenyl liquid crystal hosts鈥
- T. Hegmann, H. Qi, B. Kinkead, V. M. Marx, H. Girgis, P. A. Heiney, Can. Metall. Quarterly 2009, 48, 1-9. 鈥淔unctionalized metal and semiconductor nanoparticle doped liquid crystals - Modifying optical and electro-optical properties鈥
- H. Qi, T. Hegmann, J. Am. Chem. Soc. 2008, 130, 14201-14206. 鈥淧ost-synthesis racemization and place exchange reactions 鈥 one step further to understand the origin of chiral ligand-capped gold nanoparticle chirality鈥
- H. Qi, T. Hegmann, J. Mater. Chem. 2008, 18, 3288-3294. 鈥淚mpact of nanoscale particles and carbon nanotubes on current and future generations of liquid crystal displays鈥 鈥 Invited Highlight & Inside Cover Article
- V. M. Marx, H. Girgis, P. A. Heiney, T. Hegmann, J. Mater. Chem. 2008, 18, 2983-2994. 鈥淏ent- core LC decorated gold nanoclusters: Synthesis, self-assembly, and effects in mixtures with bent-core LC hosts鈥
- H. Qi, B. Kinkead, T. Hegmann, Proc. SPIE 2008, 6911, 691106 (11 pages). 鈥淓ffects of functionalized metal and semiconductor nanoparticles in nematic liquid crystals鈥
- H. Qi, B. Kinkead, T. Hegmann, Adv. Funct. Mater. 2008, 18, 212-221. 鈥淯nprecedented dual alignment mode and Freedericksz transition in planar nematic liquid crystal cells doped with gold nanoclusters鈥 鈥 Inside Cover Article
- H. Qi, J. O鈥橬eil, T. Hegmann, J. Mater. Chem. 2008, 18, 374-380. 鈥淐hirality transfer in nematic liquid crystals doped with (S)-Naproxen functionalized gold nanoclusters: An induced circular dichroism study鈥
- M. P. Thompson, T. Hegmann, M. D. Wand, R. P. Lemieux, Liq. Cryst. 2007, 34, 987-994. 鈥淔erroelectric liquid crystal dopants with a chiral (R,R)-2,3-difluorooctyloxy side chain: Host dependence of the polarization power鈥
- H. Qi, A. Lepp, P. A. Heiney, T. Hegmann, J. Mater. Chem. 2007, 17, 2139-2144. 鈥淓ffects of hydrophilic and hydrophobic gold nanoclusters on the stability and ordering of bolaamphiphilic liquid crystals鈥
- T. Hegmann, H. Qi, V. Marx, J. Inorg. Organomet. Polym. & Mater. 2007, 17, 483-508. 鈥淣anoparticles and liquid crystals: synthesis, self-assembly, defect formation and potential applications鈥
- K. Kaznatcheev, T. Hegmann, Phys. Chem. Chem. Phys. 2007, 9, 1705-1712. 鈥淢olecular ordering in a biaxial smectic-A phase studied by scanning transmission x-ray microscopy (STXM)鈥 鈥 Hot Paper & Cover Article
- H. Qi, T. Hegmann, J. Mater. Chem. 2006, 16, 4197-4205. 鈥淔ormation of periodic stripe patterns in nematic liquid crystals doped with functionalized gold nanoparticles鈥 鈥 Cover Article
- C. Damm, G. Israel, T. Hegmann, C. Tschierske, J. Mater. Chem. 2006, 16, 1808-1816. 鈥淟uminescence and photoconductivity in mononuclear ortho-platinated metallomesogens鈥
- N. Sertova, M. Toulemonde, T. Hegmann, J. Inorg. Organomet. Polym. & Mater. 2006, 16, 91-96. 鈥淭owards recyclable nanoporous polymer membranes for the synthesis of one-dimensional nanoscale gold colloids鈥
- T. Hegmann, B. Neumann, R. Wolf, C. Tschierske, J. Mater. Chem. 2005, 15, 1025-1034. 鈥淟iquid crystalline paracyclophanes and ansa compounds 鈥 Series of polyether macrocycles incorporating diacetylene, phenyl, biphenyl, p-terphenyl and 2,5-diphenyl-1,3,4-thiadiazole rigid cores鈥
- T. Hegmann, M. R. Meadows, M. D. Wand, R. P. Lemieux, J. Mater. Chem. 2004, 14, 185-190. 鈥淔erroelectric liquid crystal induced by atropisomeric biphenyl dopants: Influence of the SmC host mixture composition鈥
- T. Hegmann, J. Kain, S. Diele, B. Schubert, H. B枚gel, C. Tschierske, J. Mater. Chem. 2003, 13, 991- 1003. 鈥淢olecular design at the calamitic/discotic cross-over point. Mononuclear ortho-metallated mesogens based on the combination of rod-like phenylpyrimidines and -pyridines with bent or half-disc-shaped diketonates鈥
- B. Neumann, T. Hegmann, C. Wagner, P. R. Ashton, R. Wolf, C. Tschierske, J. Mater.Chem. 2003, 13, 778-784. 鈥淟iquid crystalline macrocycles containing phenylpyrimidine units鈥
- T. Hegmann, R. P. Lemieux, J. Mater. Chem. 2002, 12, 3368-3370. 鈥淟arge electroclinic effect in SmA* liquid crystals induced by an atropisomeric biphenyl dopant鈥
- T. Hegmann, J. Kain, S. Diele, G. Pelzl, C. Tschierske, Angew. Chem., Int. Ed. 2001, 40, 887-890. 鈥淓vidence for the existence of the McMillan phase in a binary system of a metallomesogen and 2,4,7- trinitrofluorenone鈥
- M. T. Allen, S. Diele, K. D. M. Harris, T. Hegmann, B. M. Kariuki, D. Lose, J. A. Preece, C. Tschierske, J. Mater. Chem. 2001, 11, 302-311. 鈥淚ntermolecular organization of triphenylene-based discotic mesogens by interdigitation of alkyl chains鈥
- T. Hegmann, B. Neumann, S. Diele, C. Tschierske, J. Mater. Chem. 2000, 10, 2244-2248. 鈥淏utterfly-mesogens: Paracyclophane based macrocyclic metallomesogens forming smectic and columnar liquid crystalline phases鈥
- T. Hegmann, F. Peidis, S. Diele, C. Tschierske, Liq. Cryst. 2000, 27, 1261-1265. 鈥淐ombination of molecular rods and half-discs: Transition from lamellar to columnar order in multichain mononuclear ortho-palladated metallomesogens鈥
- M. T. Allen, K. D. M. Harris, B. M. Kariuki, N. Kumari, J. A. Preece, S. Diele, D. Lose, T. Hegmann, C. Tschierske, Liq. Cryst. 2000, 27, 689-692. 鈥淚ntermolecular organization of triphenylene-based discotic mesogens by interdigitation of alkyl chains鈥
- A. Pegenau, T. Hegmann, C. Tschierske, S. Diele, Chem.-Eur. J. 1999, 5, 1643-1660. 鈥淭he importance of micro-segregation for mesophase formation: Thermotropic columnar mesophases of tetrahedral and other low-aspect-ratio organic materials鈥
- B. Neumann, T. Hegmann, R. Wolf, C. Tschierske, Chem. Commun. 1998, 105-106. 鈥淏inuclear cyclopalladated cyclophanes: Towards a new family of metallomesogens鈥
PATENTS
- M. Pr茅v么t, A. Nemati, J. Vanegas Garc铆a, E. Hegmann, T. Hegmann, 11/2018, US PCT 62/586,304, 鈥淒etection of gases and vapors by patterned nanoparticle liquid crystal alignment鈥
- M. Reznikov, A. Sharma, T. Hegmann, 04/15/2013, US PCT 61/853994 "Patterned liquid crystal alignment layers via nanoparticle printing".
- A. Neshat, A. Sharma, T. Hegmann, E. Hegmann, 04/15/2013, US PCT 61/853993 "Biodegradable side-chain LC elastomers: smart responsive scaffolds".
- B. Kinkead, T. Hegmann, 2012, US 8,323,755 "Planar nematic liquid crystal cells doped with gold nanoparticles and methods of inducing a Freedericksz transition".
- V. Yathindranath, D. F. Moore, J. van Lierop, T. Hegmann, 2013, US 8,383,085 "Methods of making iron containing nanoparticles".
- V. Yathindranath, T. Hegmann, J. van Lierop, D. F. Moore, 2008, US PCT 61/055,683 "Magnetically directed drug convection".
- H. Qi, T. Hegmann, 2011, US 8,071,181. "Metal nanoparticles and use thereof for inducing chirality in liquid crystal phases" (International: 12/086,720).
- H. Qi, T. Hegmann, 2012, US 8,294,838. "Planar nematic liquid crystal cells doped with gold nanoparticles and methods of inducing a Freedericksz transition".
- V. M. Marx, T. Hegmann, 2012, US 8,092,712. "Bent-core LC decorated gold nanoparticles".
- M. Worden, Z. Sun, D. M. Miller, T. Hegmann, 2015, US PCT 62/169,602鈥淎queous synthesis of polyhedral 鈥渂rick-like鈥 iron oxide nanoparticles for hyperthermia and T2 MRI contrast enhancement, and for targeting endothelial cells for therapeutic delivery鈥
- Y. Gao, T. Hegmann, E. Hegmann, 2014, US PCT /US2014/071618 鈥淏iocompatible smart responsive scaffold having interconnected pores鈥
Education
M.Sc., (diploma) Martin Luther University, Halle (Germany), 1996
Ph.D., Martin Luther University, Halle (Germany), 2001
PDF, Queen's University, Kingston, ON (Canada), 2001-2003
Ph.D., Martin Luther University, Halle (Germany), 2001
PDF, Queen's University, Kingston, ON (Canada), 2001-2003