- Research Staff
- Research Staff
Primary Research Area
- Nanotechnology - Nano-materials
- Ph.D. Chemistry, Brown University, 1983
Synthesis and development of tailored organometallic, inorganic and polymeric precursors to deposit nanoscale materials, such as thin films, nanoparticles and nanowires of metals and ceramics, and micro and nano-spheres of biomaterials, via sol-gel processing, flow-limited field emission electrostatic spray (FFESS) deposition, and chemical vapor deposition (CVD) for applications including dye-sensitized solar cells, detectors and display devices, and via precision particle fabrication (PPF) technology for advanced drug delivery and cell therapy, including pancreatic islet encapsulation for type I diabetes treatment.
- Electronic and optical materials: electronic, optical and magnetic materials for various devices involving thin films, micro and nano particles, and nanowires/tubes of metals, and metal nitrides and oxides utilizing their electronic, optical, optoelectronic, and magnetic properties.
- Thin film and nanoparticle fabrication: Thin films, micro and nano particles, and nanowires/tubes via sol-gel processing, charged liquid cluster beam (CLCB) deposition, chemical vapor deposition (CVD), chemical solution deposition (CSD), and precision particle fabrication (PPF) technology.
- Precursors for Nanoscale materials synthesis: Syntheses and development of tailored organometallic, inorganic and polymeric precursors
- Bio-materials: micro and nano spheres/capsules of biodegradable/compatible materials for imaging, advance drug delivery, and cell therapy.
- Semiconductor materials
- Charge particle physics and engineering
- Nanomedicine and bio-nanotechnology
- Semiconductor devices and manufacturing
- Solar and renewable technology
Selected Articles in Journals
- Kim, I.-Y., Choi, H, Kim, K. (2017). "Improved survival of anchorage-dependent cells in core-shell hydrogel microcapsules via co-encapsulation with cell-friendly microspheres." Journal of Microencapsulation 34(1): 57-62.
- Kim, I.-D., E. Sawicki, et al. (2016). "Robust neuroprotective effects of intranasally delivered iNOS siRNA encapsulated in gelatin nanoparticles in the postischemic brain." Nanomedicine: Nanotechnology, Biology and Medicine 12(5): 1219-1229.
- I.-Y. Kim , E. Joachim, H. Choi, K. Kim, "Toxicity of silica nanoparticles depends on size, dose, and cell type." Nanomedicine: Nanotechnology, Biology and Medicine 11(2015): 1407-1416.
- E. Joachim, I.-D. Kim, Y. Jin, K. Kim, J. Lee, H. Choi, "Gelatin nanoparticles enhance the neuroprotective effects of intranasally administered osteopontin in rat ischemic stroke model." Drug Deliv Transl Res 4 (2014) 395-399.
- Y.-C. Jin, I.-Y. Kim, H.-K. Lee, J.-Y. Park, P.-L. Han, K. Kim, H. Choi, J.-K. Lee, "Biodegradable gelatin microspheres enhance the neuroprotective potency of osteopontin via quick and sustained release in the post-ischemic brain", Acta Biomater 10 (2014) 3126-3135.
- P. E. Heil, H. Kang, H. Choi, and K. Kim, "Effects of controlled surface treatment on titanium dioxide electrode nanostructure for dye-sensitized solar cells, Appl. Phys. A 112 (2013) 371-380.
- G. Kulsharova, M. Lee, F. Cheng, M. Haque, H. Choi, K. Kim, W. O'Brien, Jr, and G. L. Liu, "In vitro and in vivo imaging of peptide-encapsulated polymer nanoparticles for cancer biomarker activated drug delivery", IEEE Trans NanoBioscience 12 (2013) 304-310.
- I.-Y. Kim, P. L. Pusey, Y. Zhao, S. S. Korban, H. Choi, K. Kim, Controlled release of Pantoea agglomerans E325 for biocontrol of fire blight disease of apple, J. Control. Release 161(2012) 109-115.
- F. Cheng, Y. B. Choy, H. Choi and K. Kim, Modeling of small-molecule release from crosslinked hydrogel microspheres: Effect of crosslinking and enzymatic degradation of hydrogel matrix, Int. J. Pharm., 403 (2011) 90 95.
- Y.-C. Jin, S.-W. Kim, F. Cheng, J.-H. Shin, J.-K. Park, S. Lee, J.-E. Lee, P.-L. Han, M. Lee, K. Kim, H. Choi, J.-K. Lee, The effect of biodegradable gelatin microspheres on the neuroprotective effects of high mobility group box 1 A box in the postischemic brain, Biomaterials 32 (2011) 899 908.
- W. Gu, P. E. Heil, H. Choi, and K. Kim, Generation of stable multi-jets by flow-limited field-injection electrostatic spraying and their control via I-V characteristics, J. Physics D: Applied Physics, 43 (2010) 492001
- Y. B. Choy, H. Choi, and K. Kim, "Uniform Ethyl Cellulose Microspheres of Controlled Sizes and Polymer Viscosities and Their Drug Release Profiles", J. Appl. Polym. Sci., 2009, 112(2), 850-857.
- Y. B. Choy, F. Cheng, H. Choi, and K. Kim, Uniform Chitosan Microspheres for Potential Application to Colon-Specific Drug Delivery", Macromol. Biosci. 2008, 8, 11731181.
- C. Kim, W. Gu, M. Briceno, I. M. Robertson, H. Choi, and K. Kim, Copper Nanowires with Five-Twinned Structure Grown by Chemical Vapor Deposition Adv. Mater. 2008, 20, 18591863.
- Y. B. Choy, F. Cheng, H. Choi, and K. Kim "Monodisperse Gelatin Microspheres as a Drug Delivery Vehicle: Release Profile and Effect of Cross-Linking Density", Macromol. Biosci. 2008, 8, 758765.
- W. Gu, H. Choi, and K. Kim, "A Quantum Mechanical Theory for Single Molecule-Single Nanoparticle Surface Enhanced Raman Scattering, J. Phys. Chem. A 2007, 111, 8121-8125.
- W. Gu, P. E. Heil, H. Choi, and K. Kim, "Comprehensive model for fine Coulomb fission of liquid droplets charged to Rayleigh limit Comprehensive model for fine Coulomb fission of liquid droplets charged to Rayleigh limit", Appl. Phys. Lett. 2007, 91, 064104.
- Y. B. Choy, H. Choi, and K. Kim, "Fabrication of uniform biodegradable hydrogel microspheres by a surfactant-free electric-field-assisted method," Macromol. Biosci. 2007, 7, 423-428.
- W. Gu, H. Choi, and K. Kim,"Universal approach to accurate resistivity measurement for a single nanowire: Theory and application", Appl. Phys. Lett. 2006, 89, 253102.
- S. Park, S. Lim and H. Choi, "Fe(II) Hydrides as Precursors for Chemical Vapor Deposition of Iron and Iron Oxide Thin Films", Chem. Mater., 2006, 18, 5150.
- H. Choi and S. Park, "Seedless Growth of Free-Standing Copper Nanowires by Chemical Vapor Deposition", J. Am. Chem. Soc. 2004, 126, 6248 -6249.
- H. Kang, S. Park, H. Choi, K. Kim, M. Sung, "Low-Temperature Growth of Highly Crystalline (Ba, Sr)TiO3 Films by Charged Liquid Cluster Beam Method", Electrochem. Solid-State Lett., 2004, 7, F77 ?F80.
- H. Choi, S. Park, and T. H. Kim, "Novel Nickel Precursors for Chemical Vapor Deposition," Chemistry of Materials, vol. 15, p. 3735, 2003.
- H. Choi and S. Park, "Liquid Cobalt(I) Hydride Complexes as Precursors for Chemical Vapor Deposition," Chemistry of Materials, vol. 15, p. 3121, 2003.
- H. Choi, S. Park, and H. G. Jang, "Chemical Vapor Deposition of Cobalt using Novel Cobalt(I) Precursors," Journal of Materials Research, vol. 17, p. 267, 2002.
- H. Choi, S. Park, Y. Yang, H. Kang, K. Kim, M. Y. Sung and H. G. Jang, "Low-Temperature Fabrication of High-Quality (Ba, Sr)TiO3 Films using Charged Liquid Cluster Beam Method," J. Mater. Res. 2002, 17, 1888.
- Y. Yang, K. Kim and H. Choi, "Fabrication of Perovskite Pb(Zn1/3Nb2/3)O3 Thin Films using Charged Liquid Cluster Beam," Thin Solid Films, 2001, 396, 97.
- S. H. Rhee, Y. Yang, J. M. Myoung, K. Kim and H. Choi,"Deposition of Highly (100)-Oriented MgO films at Low Temperature by Charged Liquid Cluster Beam," Thin Solid Films, 2001, 396, 23.
- H. Choi and S. Hwang, "Volatile Amidoalane Complexes for Chemical Vapor Deposition of Aluminum", Chem. Mater. 1998, 10, 2323.
- H. Choi and S. Hwang, "Copper(I) Tert-butyl-3-oxobutanoate Complexes as Precursors for Chemical Vapor Deposition of Copper", Chem. Mater. 1998, 10, 2326.
- M. Cich, K. Kim, H. Choi and S. Hwang, "Deposition of (Zn,Mn)2SiO4 for plasma display panels using charged liquid cluster beam," Appl. Phy. Lett. 1998, 73, 2116.
- "Copper CVD Precursors Containing Alkyl 3-Oxobutanoate Ligands", S. Hwang, H. Choi and I. Shim, Chem. Mater. 1996, 8, 981.
- C. K. Ryu, H. Choi and K. Kim, "Fabrication of Highly Concentrated Er3+-Doped Aluminosilicate Films via Sol-Gel Processing", Appl. Phy. Lett. 1995, 66(19), 2496.
- Encapsulated Materials and Methods for Encapsulating Materials, K. Kim, and H. Choi, U. S. Patent No. 8,663,511 B2, 2014.
- Microparticles, K. Kim, H. Choi, Y. Choi, U. S. Patent No. 8,409,621 B2, 2013
- High Intensity Discharge ARC Lamp Using UV-Absorbant Coating, K. Kim, J. Gao, H. Choi, R. P. Singh, U.S. Patent No. 8,469,762 B2, 2013.
- Apparatus and Methods for Applying a Film on a Substrate, K. Kim, H. Choi, U. S. Patent No. 8,507,048 B2, 2013.
- Apparatuses and Methods for Applying One or More Materials on One or More Substrates, K. KIM, H. Choi, P. E. Heil, U. S. Patent No. 8,342,120 B2, 2013.
- Encapsulated Materials and Methods for Encapsulating Materials, K. Kim, and H. Choi, U. S. Patent No. 8,293,271 B2, 2012.
- Electron Emission Device Incorporating Free Standing Monocrystalline Nanowires, H. Choi, K. Kim, U. S. Patent No. 8,030,833 B2, 2011.
- Apparatus and Method for Applying a Film on a Substrate, K. Kim, H. Choi, U. S. Patent No. 8,025025 B2, 2011.
- Organometallic Compounds and Their Use as a Precursors for Forming Films and Powders of Metal or Metal Derivatives, H. Choi, U. S. Patent No. 7,507,390, 2009.
- "Nanostructures Including A Metal," H. Choi, PCT 10/664,431(US), 2003; U. S. Patent No. 7,344,753, 2008.
- "Microparticles," K. Kim, H. Choi, and Y. B. Choy, U. S. Patent No. 7,309,500, 2007.
- "Organometallic Compounds and their use as Precursors for Forming Films, and Powders of Metal or Metal Derivatives," H. Choi, China Patent Pub. No. 101139365, 2008; Korean Patent Pub. No. 1020030028767, 2003; European Patent Pub. No. 1299404 (A1), 2003; U. S. Patent No. 6,777,565, 2004.
- "Organocopper Precursors for Chemical Vapor Deposition," H. Choi, U. S. Patent No. 6,538,147, 2003.
- "Amidoalane Precursors for Chemical Vapor Deposition of Aluminum", H. Choi, U. S. Patent No. 5,880,303, 1999.
- Arnold O. Beckman Research Award, 2012
- Arnold O. Beckman Research Award, 2006