Our Faculty

Sergey Kazakov

Professor

Dyson College of Arts and Sciences

Chemistry and Physical Sciences - PLV

Location
  • @Pleasantville
    Costello House 103

Education


Doctor of Physical and Mathematical Sciences , Moscow State University , Moscow, Russia , 1998
Physical Chemistry/Molecular Physics

Awards and Honors

  • Dyson College, Pace University, May 2017 - Summer Research Awards (2004-2017)
  • Pace University, March 22, 2017 - Scholarly Research Awards, Kenan Travel Awards, Presidential Release Time Awards (2003-2017)
  • Pace University, March 8, 2017 - Pace Undergraduate Student Academic Conference Travel Fund For Joint Presentations with Faculty Mentors
  • Pace University, 2010 - Dyson College Faculty Excellence in Scholarship Award
  • Lund University, Sweden, 2000 - The Swedish Institute Scholarships
  • Lund University, Sweden, 1999 - The Swedish Institute Scholarships
  • Moscow State University, Russia, 1998 - Doctor of Physical and Mathematical Sciences

Publications


Kazakov, S. V. Totally, more than 100 publications (papers in peer-reviewed journals, book chapters, and patents).

Kazakov, S. V. (2017) Physicochemical aspects of membrane/hydrogel assembly (monograph/textbook, 6 chapters written).

Kazakov, S. V. (2017) Lipobeads. Dr. Angel Catala (Eds.), In book: Liposomes. In Tech. , pages 48 pages.

Kazakov, S. V. & Rahni, S. (2017, February). (2017) Hydrogel micro-/nanosphere coated by a lipid bilayer: Preparation and microscopic probing. Gels. Vol 3 (Issue 1) , pages 00007 (17 pages).

Smirnova, N. A., Kaidery, N. A., Hushpulian, D. M., Rakhman, I. I., Poloznikov, A. A., Tishkov, V. I., Karuppagounder, S. S., Gaisina, I. N., Pekcec, A., Van Leyen , K., Kazakov, S. V., Yang, L., Thomas, B., Ratan, R. R. & Gazaryan, I. G. (2016, December). (2016) Bioactive flavonoids and catechols as Hif1 and Nrf2 protein stabilizers –Implications for Parkinson's disease. Aging and Disease. Vol 7 (Issue 6) , pages 745-762.

Kazakov, S. V. Energy consumption and the world technological development (under review). Energy.

Kazakov, S. V. & , . (2016, May). Technological challenges and potential advantages of lipobeads as drug delivery systems. Vol 3 , pages 101-104.

Kazakov, S. V. (2016, March). Liposome-nanogel structures for future pharmaceutical applications: An updated review. Current Pharmaceutical Design. Vol 22 (Issue 10) , pages 1391-1413.

Kazakov, S. V. (2016, February). Lipobead (lipogel) as a future drug delivery system. Dr. Salam Massadeh (Eds.), In book: “Nanotechnology in Drug Delivery”, Ch4. Manchester, UK: One Central Press. , pages 85-129.

Ignatenko, O., Kazakov, S. V. & et al, . (2013). Electrochemistry of chemically trapped dimeric and monomeric recombinant horseradish peroxidase. Advances in Biosensors and Bioelectronics (ABB). Vol 2 (Issue 3) , pages 25-34.

PRESENTATIONS


Kazakov, S. V. (2017, June 28). BIOCATALYSIS 2017 - 4th International School NANO-2017 . Nanobioscopic lipobead – Encapsulated anticancer drugs. Moscow State University, Russia, Moscow, Russia

Kazakov, S. V., Rahni, S., Ramirez, C. & Smith, E. (2017, May 8). The Annual Student & Faculty Pace Research Day . Bioscopic lipobead-encapsulated anticancer drug. Pace University, Pleasantville, NY

Kazakov, S. V. & Rahni, S. (2017, May 6). 65th Annual ACS Undergraduate Research Symposium. Lipid bilayer on the surface of microgels: Fluidity vs. Rigidity. ACS, Fordham University, Bronx, NY

Kazakov, S. V. & Rahni, S. (2017, May 3). Science Day 2017. Lipid bilayer on the surface of microgels: Fluidity vs. Rigidity. Pace University, Pleasantville, NY

Kazakov, S. & Ramirez, C. (2017, May 3). Science Day 2017. Lipobeads with "thermophilic" hydrogel core. Pace University, Pleasantville, NY

Kazakov, S. V. & Rahni, S. (2017, March 8). Pittsburg Conference (PITTCON). Giant lipobeads as a tool to optimize the number of steps in preparation of a new smart drug delivery system. Chicago, IL

Kazakov, S. V. & Rahni, S. (2017, March 8). Pittsburg Conference (PITTCON). Lipobeads' preparation and imagining using high pressure scanning electron microscopy. Chicago, IL

Kazakov, S. & Rahni, S. (2017, March 4). 36th Annual Meeting of Dyson College Society of Fellows . Lipobeads: Effect of lipid bilayer fluidity on formation of unilamellar coating on the microgels. Pace University, New York, NY

Kazakov, S. & Smith, E. (2017, March 4). 36th Annual Meeting of Dyson College Society of Fellows. Polymerization within giant unilamellar vesicles prepared by gentle hydration of hybrid agarose/lipid films. Pace University, New York, NY

Rahni, S. & Kazakov, S. V. (2016, May). Science Day 2016. Compatibility of hydrogels and phospholipid bilayer: lipobead preparation by microgel/liposome mixing. Pace University, Pleasantville, NY

Kazakov, S. V. (2016, May). TechConnect World Innovation Conference and Expo. Technological challenges and potential advantages of lipobeads as drug delivery systems. Washington, DC

Kazakov, S. V. (2016, April). Dyson Research Day. Lipogel-encapsulated anticancer drugs. Pace University, New York

Kazakov, S. V. (2016, April). The Annual Student & Faculty Pace Research Day . Lipobeads as a new drug delivery system. Pace University, Pleasantville

Karagolian, M. & Kazakov, S. V. (2016, March). 35th Annual Meeting of Dyson College Society of Fellows . Fluorescent microgels with swelling ability upon temperature increase. Pace University, New York, NY

Posada, L. & Kazakov, S. V. (2016, March). 35th Annual Meeting of Dyson College Society of Fellows . Lipobeads: Interaction of lipid bilayer with non-spherical microgels. Pace University, New York, NY

Kazakov, S. V. (2016, March). Pittsburg Conference (PITTCON). Concept of lipobeads in the context of encapsulated drug delivery: Technological challenges vs. potential advantages. Atlanta, GA

Kazakov, S. V. & Karagolian, M. (2015, May). 63rd Annual ACS Undergraduate Research Symposium . Fluorescent hydrogel exhibiting positive volume phase transition. ACS, Queensborough Community College, NY

Kazakov, S. V. & Posada, L. (2015, May). 63rd Annual ACS Undergraduate Research Symposium. Liposome/hydrogel mixing: Approach to the lipogel formation. ACS, Queensborough Community College, NY

Posada, L. & Kazakov, S. V. (2015, May). Science Day 2015 . Characterization of temperature sensitive, fluorescent lipobeads by optical, fluorescence, and confocal microscopy. Pace University, Pleasantville, NY

Lucchese, M. & Kazakov, S. V. (2015, May). Science Day 2015. Lipobeads – the future drug delivery systems: Preparartion and microscopic characterization of spherical lipobeads with “thermophobic” core. Pace University, Pleasantville, NY

Karagolian, M. & Kazakov, S. V. (2015, May). Science Day 2015. ”Theromophilic” hydrogels and non-spherical lipobeads on their basis for drug delivery. Pace University, Pleasantville, NY

Kazakov, S. V. (2015, April). The 3rd Annual Pace Research Day. Combination of polymer network and lipid bilayer membrane as the other level of complexity of the drug carrier systems. Pace University, Pleasantville, NY

Kazakov, S. V. & Karagolian, M. (2015, March). 34th Annual Meeting of Dyson College Society of Fellows . Lipobeads with “thermophilic” core: Preparation and properties of fluorescent hydrogel exhibiting positive volume phase transition. Pace University, New York, NY

Kazakov, S. V. & Lucchese, M. (2015, March). 34th Annual Meeting of Dyson College Society of Fellows . Lipobeads with “thermophobic” core: Fluorescent microgels with negative volume phase transition synthesized by inverse suspension polymerization method. Pace University, New York, NY

Kazakov, S. V. (2015, March). Pittsburg Conference (PITTCON) . Giant lipobeads: Preparation, characterization by confocal microscopy, and mechanisms of controlled release. New Orleans, LA

Kazakov, S. V. (2014, April). The 2nd Annual Pace Research Day. Hydrogel/lipid bilayer assembly. Pace University, Pleasantville, NY

Kazakov, S. V. (2014, March). Pittsburg Conference (PITTCON) . Natural hydrogel/membrane structures and lipogels as drug delivery systems. Chicago, IL

Kazakov, S. V. (2013). Pittsburg Conference (PITTCON). Modeling structural transformations within bacterial spores. Philadelphia, PA

Kazakov, S. V. (2013). The 1st Annual Pace Research Day. A) Lipogel-encapsulated anticancer drugs, b) Modeling structural transformations within bacterial spores, c) Hydrogel film on optical fiber core. Pace University, Pleasantville, NY

RESEARCH INTEREST


Hydrogel/lipid membrane assembly: modeling membrane system of cell; hydrogel nanoparticles, lipogels, nanofilms, liposomes. and lipid membrane synthesis manipulation and characterization; synthetic and natural ionic reservoirs; bioanalytical devices, drug delivery and control release systems

Intellectual Property


  • Patent: (2011) Kazakov S., Kaholek M., Levon K. Lipobeads and their production. US Patent 7883648
  • Patent: (2011) Kazakov S., Kaholek M., Levon K. Nanogels and their production using liposomes as reactors. US Patent 7943067
  • Patent: (2009) Kazakov S., Kaholek M., Levon K. Lipobeads and their production. US Patent 7618565

PROFESSIONAL MEMBERSHIPS

  • (2001 - present) American Chemical Society
  • (2004) The Empire Who's Who Registry of Executives and Professionals
  • (2007) The Who's Who Among American Teachers & Educators
  • (2008 - present) Dyson College Society of Fellows
  • (2010) The Marquis Who's Who in America

COLLEGE SERVICE

  • (2005-present) Student presentations at the Annual Meetings of the Dyson Society of Fellows, Open Houses, and Science Days [Faculty Mentor]
  • (2010 - 2012) Dyson College TAP Committee [Committee Member]

UNIVERSITY SERVICE

  • (2013-present) Engineering Taskforce [Task Force Member]
  • (2006-present) Scholarly Research and Kenan Travel Grants Committee [Committee Member]
More Faculty Members