Dr. Tova Werblowsky focuses on prosecuting patent applications and representing clients in Patent Office proceedings such as inter partes review (IPR) proceedings. She also has experience providing intellectual property due diligence services such as landscape and freedom to operate analyses in the pharmaceutical, biotech, chemical, and materials industries to clients such as POSCO-Future M, Merck, BioMarin Pharmaceuticals, and British American Tobacco.
Prior to joining Jones Day, Tova was a professor of chemistry and physics at Touro University in New York City. She taught advanced seminars in nanoscience, computational chemistry, materials, and biomedical topics in addition to general chemistry and physics courses.
Her graduate and postdoctoral research was in the application of computational methods to determine and predict the energies and structures of monolayer adsorption of organic materials on semi-metallic surfaces. She worked in collaboration with an experimental group in the area of surface microscopy to understand the unique images produced in these techniques and adapted computational techniques to the study of the interface of the 3D solid and the single-layer adsorbed molecules.
Tova has coauthored several peer-reviewed scientific publications, including publications in The Journal of Physical Chemistry and the Proceedings of the National Academy of Sciences (PNAS).
Weitere Veröffentlichungen
Publications Prior to Jones Day
2009
Solvent Effects on the Self-Assembly of 1-Bromoeicosane on Graphite. Part I.
Scanning Tunneling Microscopy, J. Phys. Chem.C 11
2009
Solvent Effects on the Self-Assembly of 1-Bromoeicosane on Graphite. Part II. Theory, J. Phys. Chem. C 113
2008
Chain-length effects on the self-assembly of short 1-bromoalkane and n-alkane monolayers on graphite, J. Phys. Chem. C
2008
Thermodynamical Equilibrium of Binary Supramolecular
Networks at the Liquid−Solid Interface, J. Am. Chem. Soc 130
June 2007
An Experimental and Theoretical Study of the Formation of Nanostructures of
Self-Assembled Cyanuric Acid through Hydrogen Bond Networks on
Graphite, Journal of Physical Chemistry B 111
November 2006
Frustrated Ostwald ripening in self-assembled monolayers of
cruciform pi-systems, Langmuir 22
August 2005
Toward Nanoscale Charge Transfer: Experimental and
Theoretical Characterization of Self-Assembled Monolayers, Abstracts of Papers of The
American Chemical Society 230
April 2005
Scanning Tunneling Microscopy and Theoretical Studies of 1-Halohexane Monolayers on Graphite: Functional Group Interactions,
Self-Assembly, and Image Contrast, Proceedings of the National Academy of Sciences
102
March 2005
Self-Assembly and Electron Transfer at Liquid-Solid and Solid-Vacuum
Interfaces: Driving Forces for 2D Organization and Tunneling, Abstracts
of Papers of the American Chemical Society 229
February 2005
The Self-Assembly of Small Polycyclic Aromatic Hydrocarbons on Graphite: A Combined STM and Theoretical Approach, Journal of
Physical Chemistry B 109
September 10, 2003
Hexadecanoic acid on graphite: a theoretical picture” Abstr
Pap Am Chem S 226
September 10, 2003
Resolving the puzzle of haloalkane structures on graphite
using a theoretical approach” Abstr Pap Am Chem S 226
September 2003
Driving forces for two-dimensional self-assembly on
graphite: Adsorbate functionalization and competing interactions” Abstr Pap Am
Chem S 226
March 10, 2003
Molecular Self-Assembly on Graphite: A Theoretical Picture”
Departmental Seminar, Columbia University Dept. of Chemistry
December 5, 2001
Theoretical Simulation of the Photopolymerization of Diacetylenes on Graphite:
A Hybrid QM/MM Car-Parrinello Molecular Dynamics Approach, Original
Research Proposal, Columbia University Dept. of Chemistry
- Seton Hall University (J.D. 2023); Columbia University (Ph.D. in Physical Chemistry 2003); Queens College, City University of New York (B.A. in Chemistry 1996)
- New York, U.S. District Court for the Southern District of New York, and registered to practice before the United States Patent and Trademark Office
- Hebrew