This course deals with the fundamentals and applications of nanoscience and nanotechnology. Size-dependent phenomena, ways and means of designing and synthesizing nanostructures, and cutting-edging applications will be presented in an integrated and interdisciplinary manner.
CH 362:Instrumental Analysis I - Spectroscopy and Chromatography
Theoretical and experimental approach to spectroscopy and chromatography. Includes ultraviolet, visible and infrared absorption by molecules, emission spectroscopy, nuclear magnetic resonance, mass spectroscopy and gas-liquid and high-performance chromatography.
Lectures, demonstrations, and laboratory experiments, selected from among the following topics, depending on student interest: vacuum technology; thin-film preparation; scanning electron microscopy; infrared spectroscopy and ellipsometry; electron spectroscopy; Auger, photoelectron, and LEED; ion spectroscopies; SIMS, IBS, and field emission; surface properties-area, roughness, and surface tension.
Physio-chemical aspects of polymers, molecular weight distributions, solution characterization and theories, polymer chain configuration, thermodynamics of polymer solutions, the amorphous state, and the crystalline state.
The course covers recent advances in macromolecular science, including polyelectrolytes and water-soluble polymers, synthetic and biological macromolecules at surfaces, self-assembly of synthetic and biological macromolecules, and polymers for biomedical applications.
Recent developments in polymer science will be discussed, e.g., physical measurements, polymer characterization, polymerization kinetics, and morphology. Topics will vary from year to year and specialists will participate.
The course covers recent advances in macromolecular science, including polyelectrolytes and water-soluble polymers, synthetic and biological macromolecules at surfaces, self-assembly of synthetic and biological macromolecules, and polymers for biomedical applications.
Schaefer School of Engineering & Science
Department:
Chemistry, Chemical Biology & Biomedical Engineering / Chemical Engineering & Materials Science
Research & Education
Education
June 1989: Ph.D. in Polymer Chemistry, Moscow State University, Russia June 1984: B.S. in Polymer Science with award for excellence, Moscow State University, Russia
Research
Physical chemistry of polymers, polymers and biopolymers at interfaces, surface spectroscopies, soft materials.
Award for Distinguished Scientific Achievement, American Coatings Association, IN, April 2009
Fellow, American Physical Society, 2007- present
Selected Publications
Journals
S. Pavlukhina, Y. Lu, A. Patimetha, M. Libera, S. Sukhishvili. "Polymer Multilayers with pH-Triggered Release of Antibacterial Agents", Biomacromolecules 2010, 11 3448–3456.
Y. Han, S. Tan, M. K. Kh. Oo, D. Pristinski, S. Sukhishvili, and H. Du. "Towards Full-Length Accumulative SERS-active Photonic Crystal Fiber", Advanced Materials 2010, 22 1-5.
L. Xu, Z. Zhu, O. Borisov, E. Zhulina and S. A. Sukhishvili. "pH-Triggered Block Copolymer Micelle-to-Micelle Phase Transition", Phys. Rev. Lett. 2009, 103 118301.
Zh. Zhu and S. A. Sukhihsvili. (2009). "Temperature-induced Swelling and Small Molecule Release with Hydrogen-Bonded Multilayers of Block Copolymer Micelles", ACS Nano , 3 3595-3605.
M. Erol, Y. Han, S. K. Stanley, C. M. Stafford, H. Du and S. Sukhishvili. (2009). "SERS Not To Be Taken for Granted in the Presence of Oxygen", J. Am. Chem. Soc, 131 7480–7481.
E. Kharlampieva, J. F. Ankner, M. Rubinstein and S.A. Sukhishvili. (2008). "pH-Induced Release of Polyanions from Multilayer Films", Phys. Rev. Letters , 100 128303.
E. Kharlampieva, V. Kozlovskaya, and S. A. Sukhishvili. (2009). "Layer-by-Layer Hydrogen-Bonded Polymer Films: From Fundamentals to Applications", Advanced Materials, 21 1-13.
I. Erel-Unal and S. A. Sukhishvili. (2008). "Hydrogen-bonded Multilayers of a Neutral Polymer and a Polyphenol", Macromolecules, 41 3962-3970.
V. Kozlovskaya and S. A. Sukhishvili. (2006). "Amphoteric Hydrogel Capsules: Multiple Encapsulation and Release Routes", Macromolecules , 39 6191-6199.
S.A. Sukhishvili, E. Kharlampieva and V. Izumrudov. (2006). "Where Polyelectrolyte Multilayers and Polyelectrolyte Complexes Meet", Macromolecules, 39 8873-8881.
V. Kozlovskaya, E. Kharlampieva, M. L. Mansfield and S. A. Sukhishvili. (2006). "Poly(methacrylic acid) Hydrogel Films and Capsules: Response to pH and Ionic Strength, and Encapsulation of Macromolecules", Chem. Materials , 18 328-336.
The mission of the Department of Chemistry, Chemical Biology, and Biomedical Engineering is to exploit the natural interdependence of science and engineering...read more
