Publications
41. J. Kim, “Effects of Silane Chemical
Structures on the Surface Properties of Silanized Cardboard: Inverse Gas
Chromatography and Complementary Analysis”, Chromatographia
2025 in press.
40. J. Kim and J. Yu “Measurement of
Distribution Constants Between Air and Solid Substrates Using Gas
Chromatography for Quantification of Hydrocarbons in Solid Substrates via
Headspace-Solid Phase Microextraction” Chromatographia 2024, 87, 285-294.
39. J. Kim, “Preparation
and Characterization of Silanized Cardboard via Inverse Gas Chromatography and
Complementary Analytical Techniques” Chromatographia 2022, 85, 797-807.
38. J. Kim, “Investigation of the Surface
Properties of Torrefied Cardboard and Its Hydrocarbon Adsorption Properties via
Inverse Gas Chromatography” Chromatographia
2021, 84, 875-887.
37. E. Frauenhofer, C. Cimmerer,
J. Yu, Z. Al-Saigh, and J. Kim, “Investigation of Sorption and
Diffusion of Hydrocarbons into Polydimethylsiloxane in the Headspace-Solid
Phase Microextraction Sampling process via Inverse Gas Chromatography” J. Chromatogr. A 2021, 1639, 461894.
36. J. Kim and J. Yu,“ Measurements of Relative Distribution Constants of
Vaporized Hydrocarbons Between Air And
Polydimethylsiloxane via Capillary Columns for the Calculation of Headspace
Hydrocarbon Compositions”, J. Chromatogr. A 2020, 1627, 461405.
35. M. Tian, J. Yu, and J. Kim, “Estimation of the Area Under
a Curve via Several B-Spline-Based Regression Methods and Applications in
Scientific Data”, J. Biopharm. Stat. 2020, 30, 704-720.
34. M. J. Swierczynski, K. Grau, M. Schmitz, and J. Kim, “Detection and Identification of Gasoline Residue Present in
Household Materials via Headspace-Solid Phase Microextraction and Gas
Chromatography with Mass Selective Detector”, J. Anal. Chem. 2020, 75, 44-55.
33. E. Frauenhofer, J. Cho, J. Yu, Z. Al-Saigh, and J. Kim, “Adsorption of Hydrocarbons Commonly
Found in Gasoline Residues on Household Materials Studied by Inverse Gas
Chromatography”, J. Chromatogr.
A 2019, 1594, 149-159.
32. J. Kim, J. Cho, M. Schmitz, and Z. Al-Saigh, “Quantitative
Chemical Analysis of Volatile Compounds via Headspace-Solid Phase
Microextraction (HS-SPME) Coupled with Inverse Gas Chromatography (IGC)”, Forensic
Chem. 2018, 11, 7-14.
31. J. Kim, G. H. Holinga,
and G. A. Somorjai, “Curing Induced Structural Reorganization and Enhanced
Reactivity of Amino-Terminated Organic Thin Films on Solid Substrates:
Observations of Two Types of Chemically and Structurally Unique Amino Groups on
the Surface”, Langmuir 2011, 27, 5171-5175.
30. J. Kim, “Formation, Structure, and Reactivity of
Amino-terminated Organic Films on Silicon Substrates”, Interfaces and Interphases in Analytical Chemistry, ACS Symposium
Series, ACS, 2011, 141-165.
29. J. Kim, W. Qian, and Z. Al-Saigh, “Effect of
Water-Polymer Interactions on Protein Adsorption Process”, Surf. Sci. 2011, 605,
419-423.
28. J. Kim and J. Lee, “Quantification of Adenosine in Royal Jelly Products
Purchased in USA by HPLC”, Food Chem. 2011, 26, 2599-2608.
27. J. Kim and J. Lee, “Quantitative Analysis of trans-10-Hydroxy-2-Decenoic Acid in Pure and Dried Royal Jelly Products in USA by High Performance Liquid Chromatography”, J. Apic.
Sci. 2010,
54, 5-12.
26. J. Kim, J. Cho, P. M. Seidler, V. K. Yadavalli, and N. E. Kurland, “Investigations of Chemical Modifications of
Amino-Terminated Organic Films on Silicon Substrates and Controlled Protein
Immobilization”, Langmuir 2010, 26, 2599-2608.
25. J. Kim,
P. Seidler, L.-S. Wan, and C. Fill, “Formation, Structure,
and Reactivity of Amino-Terminated Organic Films on Silicon Substrates”, J. Colloid Interf. Sci. 2009,
329, 114-119.
24. J. Kim,
P. Seidler, C. Fill, and L.-S. Wan, “Investigations of the
Effect of Curing Conditions on the Structure and Stability of
Amino-Functionalized Organic Films on Silicon Substrates by Fourier-Transform
Infrared Spectroscopy, Ellipsometry, and Fluorescence Microscopy”,
Surf. Sci. 2008, 602, 3323-3330.
23. A.
Opdahl, T. S. Koffas, E. Amitay-Sadovsky, J. Kim, and G. A. Somorjai, “Characterization
of Polymer Surface Structure and Surface Mechanical Behavior by Sum Frequency
Generation (SFG) Surface Vibrational Spectroscopy and Atomic Force Microscopy
(AFM)”, J.
Phys.: Condens. Matter 2004, 16, R659-R677.
22. T.
S. Koffas, E. Amitay-Sadovsky, J. Kim, and G. A. Somorjai, “Molecular Composition and Mechanical Properties of
Biopolymer Interfaces Studied by Sum Frequency Generation Vibrational
Spectroscopy and Atomic Force Microscopy”, J. Biomater. Sci. Polym.
Edn. 2004,
15, 475-510.
21. J. Kim, T. S. Koffas,
C. C. Lawrence, and G. A. Somorjai, “Structural Characterization of Surface-Modified Polystyrene
Microspheres by Infrared-Visible Sum Frequency Generation Vibrational
Spectroscopy and Scanning Force Microscopy”, Langmuir 2004, 20, 4640-4646.
20. J. Kim, A. Opdahl, K. C. Chou, and G.
A. Somorjai, “Hydrophobic
Interaction Induced Alignment of Polymers at the Solid/Liquid Interface Studied
by Infrared-Visible Sum Frequency Generation”, Langmuir 2003, 19, 9551-9553.
19. K. C. Chou, J.
Kim, S. Baldelli, and G. A. Somorjai, “Vibrational
Spectroscopy of Carbon Monoxide, Acetonitrile and Phenylalanine Adsorbed on
Liquid/Electrode Interfaces by Sum Frequency Generation”, J. Electroanal.
Chem. 2003, 554-555, 253-263.
18. T.
S. Koffas, J.
Kim, C. C. Lawrence, and G. A. Somorjai,
“Detection of Immobilized Protein on Latex
Microspheres by IR-Visible Sum Frequency Generation and Scanning Force
Microscopy”, Langmuir 2003, 19, 3563-3566.
17. J. Kim and G. A. Somorjai “Molecular Packing of Lysozyme, Fibrinogen, and Bovine Serum
Albumin on Hydrophilic and Hydrophobic Surfaces Studied by Infrared-Visible Sum
Frequency Generation and Fluorescence Microscopy”, J. Am. Chem. Soc. 2003, 125, 3150-3158.
16. J. Kim, K. C. Chou, and G. A. Somorjai,
“Structure and Dynamics of Acetonitrile at the Air/Liquid
Interface of Binary Solutions Studied by IR-Visible Sum Frequency Generation”, J. Phys. Chem. B 2003, 107, 1592-1596.
15. K. C. Chou, N. M. Markovic, J. Kim, P. N. Ross, and G. A. Somorjai, “An In-situ Time-Dependent Study of CO
Oxidation on Pt (111) in Aqueous Solution by Voltammetry and Sum Frequency
Generation”, J.
Phys. Chem. B 2003, 107, 1840-1844.
14. J. Kim, K. C. Chou, and G. A. Somorjai,
“Investigations of the Potential-Dependent Phenylalanine
Structure on the Glassy Carbon Electrode by IR-Visible Sum Frequency
Spectroscopy”, J.
Phys. Chem. B 2002, 106, 9198-9200.
13. J. Kim, G. Kim, and P. S. Cremer, “Investigations of Polyelectrolyte Adsorption at the
Solid/Liquid Interface by Sum Frequency Spectroscopy: Evidence for Long-Range
Macromolecular Alignment at Highly Charged Quartz/Water Interfaces”, J. Am. Chem. Soc. 2002, 124, 8751-8756.
12. G.
Kim, M. Gurau, J. Kim, and P. S.
Cremer, “Investigations of Lysozyme Adsorption at the
Air/Water and Quartz/Water Interface by IR-Visible Sum Frequency Spectroscopy”, Langmuir 2002, 18, 2807-2811.
11. J. Kim, S.-H. Byeon, and T. Hughbanks, “Unprecedented Rearrangement of Host Layers upon the Insertion
of Organic Cations; Synthesis and Structure of (CH3NH3)MnTe2”, Chem. Mater. 2002, 14, 9-11.
10. J. Kim, G. Kim, and P. S. Cremer, “Investigations of Water Structure at the Solid/Liquid Interface
in the Presence of Supported Lipid Bilayers by Vibrational Sum Frequency
Spectroscopy”, Langmuir
2001, 17, 7255-7260.
9. J. Kim and T. Hughbanks, “Direct
and Indirect Preparation of Layered Quaternary Manganese Tellurides: AMnxMyTe2
(A = Li, Na; M = Cu, Ag; x + y £ 2)”, J.
Alloys Compd. 2001, 327, 116-120.
8. J. Kim and P. S. Cremer, “Elucidating
Changes in Interfacial Water Structure upon Protein Adsorption”,
ChemPhysChem 2001,
2, 543-546.
7. J. Kim and P. S. Cremer, “IR-Visible
SFG Investigations of Interfacial Water Structure Upon Polyelectrolyte
Adsorption at the Solid/Liquid Interface”, J. Am. Chem. Soc. 2000, 122, 12371-12372.
6. J. Kim and T. Hughbanks, “Synthesis,
Structures of New Ternary Aluminum Chalcogenides: LiAlSe2, a-LiAlTe2, and b-LiAlTe2”,
Inorg. Chem. 2000, 39, 3092-3097.
5. J. Kim and T. Hughbanks, “Synthesis
and Structures of Ternary Chalcogenides with Stacking Faults: KMQ2
(M =
4. J. Kim and T. Hughbanks, “Synthesis
and Structures of New Layered Ternary Manganese Selenides: AMnSe2 (A
= Li, Na, K, Rb, Cs) and Na2Mn2Se3”, J. Solid State Chem. 1999, 146, 217-225.
3. J. Kim, C. Wang, and T. Hughbanks, “Synthesis and Structures of New Layered Ternary Manganese
Tellurides: AMnTe2 (M = K, Rb, Cs), Na3Mn4Te6,
and NaMn1.56Te2”, Inorg. Chem. 1999, 38, 235-242.
2. J. Kim, C. Wang, and T. Hughbanks, “Synthesis and Structures of New Layered Ternary Manganese
Tellurides: AMnTe2 (A = Li, Na)”, Inorg. Chem. 1998, 37, 1428-1429.
1. W. Shin and J. Kim, “Structure of Diphenylmethyl-7b-Amino-7a-methoxy-3-
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