Conference Proceedings

  1. Y. Han, S. Tan, M.K. Khaing Oo, S. Sukhishvili and H. Du, “PCF with Immobilized Silver Nanoparticles as an Optofluidic SERS Sensing Platform,” in Fiber Optic Sensors and Applications VII, A. Mendez, H. Du, A. Wang, E. Udd, S.J. Mihailov, Eds., Proc. SPIE 20107677, 767710-1-767710-10.
  2. Y. Han, M.K. Khaing Oo, S. Sukhishvili, and H. Du, “Photonic Crystal Fiber as an Optofluidic Platform for Surface-Enhanced Raman Scattering,” in Specialty Optical Fibers and Their Applications, J. Hernandez-Cordero, I. Torres-Gomez, and A. Mendez, Eds., Proc. SPIE 20107839, 783908-1:783908-6.
  3. V. Kozlovskaya, S.A. Sukhishvili “Tuning pH-swelling and permeability of hydrogen-bonded multilayer capsules via polymer hydrophobicity”, Polymer Materials: Science and Engineering 200797, 873.
  4. Y. Han, M. K. Khaing Oo, Y. Zhu, H. Du, S. Sukhishvili, L. Xiao, M. S. Demohan, and W. Jin “Liquid-Core Photonic Crystal Fiber Platform for Raman Scattering Measurements of Microliter Analyte Solutions” in Photonic Crystals and Photonic Crystal Fibers for Sensing Applications III, H. Du and H. Fudouzi eds., Proc. SPEI 2007, 6767, 67670G1-67670G8.
  5. I. Erel-Unal, S.A. Sukhishvili “Biocompatible H-bonded polymer multilayers: Tuning of film destruction”, Polymer Materials: Science and Engineering200797, 776.
  6. S. Pavlukhina, V. Kozlovskaya, S.A. Sukhishvili “PEGylated ultrathincapsules of a poly(carboxylic acid) with tunable permeability”, Polymer Materials: Science and Engineering 200797, 665.
  7. V. Kozlovskaya and S.A. Sukhishvili “Control of Hydrogel Capsule Permeability: Effect of pH, Ionic Strength and Cross-linking Degree”, Polymer Materials: Science and Engineering 200695, 280.
  8. I. Erel-Unal, E. Kharlampieva, and S.A. Sukhishvili “pH-Controlled Inclusion of Dyes within Surface Hydrogels”, Polymer Materials: Science and Engineering 200695, 503.
  9. S. Tan, D. Pristinski, S. A. Sukhishvili, and H. Du, “Surface-immobilized polyampholytic silver nanoparticles for SERS detection of cations and anions in aqueous solutions”, in Nanosensing: Materials and Devices II, M.S. Islam and A.K. Dutta, Editors, Proc. SPIE2005, 6008, 1-8.
  10. X. Qiu and S.A. Sukhishvili “Crosslinked Hydrogen-bonded Multilayers Containing a Temperature-Responsive Copolymer”, Polymer Materials: Science and Engineering 200593, 220.
  11. S.A. Sukhishvili “Multilayers of Zwitterinic Weak Polyelectrolytes”, Polymer Materials: Science and Engineering 200593, 35.
  12. V. Kozlovskaya, E. Kharlampieva and S.A. Sukhishvili “One- and Two-Component Hydrogels Derived from Hydrogen-Bonded Multilayers”, Polymer Materials: Science and Engineering 200593, 86.
  13. E. Kharlampieva and S.A. Sukhishvili “Selective Chain Release from Self-Assembled Polyelectrolyte Multilayers”, Polymer Materials: Science and Engineering 200593, 596.
  14. S.A. Sukhishvili and V. Izumrudov “Non-electrostatic Contributions into Growth and Stability of Polyelectrolyte Multilayers”, Polymer Materials: Science and Engineering 200490, 750.
  15. S. Yakovlev, V. Kovzlovskaya,  S. Sukhishvili, M. Libera  “The structure of PEG-PMAA layered thin – Film capsules”, Microscopy and Microanalysis 2004, 10, 576-577.
  16. E. Kharlampieva, V. Izumrudov and S.A. Sukhishvili “Salt-induced Multilayer Growth: Correlation with Phase separation in Solution”, Polymer Materials: Science and Engineering 200490, 791.
  17. V. Kozlovskaya, S. Ok, A. Sousa, M. Libera and S.A. Sukhishvili “Hydrogen-Bonded Capsules Formed by Layer-by-Layer Self-Assembly”, Polymer Materials: Science and Engineering 200490, 448.
  18. P. Krsko, S. Sukhishvili, and M. Libera “Surface-patterned Microhydrogels”, Polymer Materials: Science and Engineering 200389, 263.
  19. S.A. Sukhishvili and V.A. Izumrudov “Hydrogen Bonding and Stability Regimes of Weak Polyelectrolyte Multilayers”, Polymer Materials: Science and Engineering 200389, 35.
  20. E. Kharlampieva and S.A. Sukhishvili “Adsorption of a Macromolecule as a Release Trigger of a Small Molecule from Polymer Multilayers”, Polymer Preprints 200344, 671.