Oppenheimer, Pola Goldberg - University of Birmingham

个人简介

Pola Goldberg Oppenheimer started her studies in Chemical Engineering (BEng) and Chemistry (BSc) at the Ben-Gurion University in 2001 (graduating Summa Cum Laude in 2005) continuing then to obtain Master of Science degree in 2007 (Cum Laude) for her work on gold-labelling enhanced transmission electron microscopy imaging of carbon nanotubes and nano-bio-assays. In 2007 she has received a competitive overseas research scholarship from Kodak to commence her doctoral course in Physics at the Cavendish Laboratories at the University of Cambridge in the group of Professor Ullrich Steiner. In 2011 her doctoral thesis was recognised as an outstanding PhD research and published as a book edition by Springer. In 2011 she undertook a postdoctoral research position in the Electrical Engineering Department of the University of Cambridge specialising in growth, characterisation and applications of carbon nanomaterials. In August 2013, she became a University Academic Fellow at the School of Chemical Engineering, University of Birmingham, UK

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Tuneable Micro-Structured Surface Enhanced Raman Scattering Substrates via Electrohydrodynamic Lithography. Mahajan, S., Hutter, T., Steiner, U. and Goldberg Oppenheimer, P. Submitted, 2013. Bio-Inspired Hierarchical Polymer Fibre-Carbon Nanotube Adhesives. Rong, Z., Zhou, Y., Chen, B., Robertson, J., Federle, W., Hofmann, S., Steiner, U. and Goldberg Oppenheimer, P. Advanced Materials, adma.201304601, 2013. Hierarchical Orientation of Crystallinity by Block-Copolymer Patterning and Alignment in an Electric Field. Goldberg Oppenheimer, P., Kabra, D., Vignolini, S., Huttner, S., Sommer, M., Neumann, K., Thelakkat, M. and Steiner, U. Chemistry of Materials., 2013, 25 (7), pp 1063–1070 DOI: 10.1021/cm3038075. Hierarchical EHD Structures for Surface-Enhanced Raman Scattering. Goldberg Oppenheimer, P. Springer, 2013, pp 79-89, DOI 10.1007/978-3-319-0078306. Patterning of Crystalline Organic Materials via Electrohydrodynamic Lithography. Goldberg Oppenheimer, P. Springer, 2013, pp 91-105, DOI 10.1007/978-3-319-0078307. Structural Hierarchy of Functional Block Copolymer System Induced by Electrohydrodynamic Lithography. Goldberg Oppenheimer, P. Springer, 2013, pp 117-129, DOI 10.1007/978-3-319-0078309. Theoretical Background and Physical Principles of Electrohydrodynamic Instabilities. Goldberg Oppenheimer, P. Springer, 2013, pp 11-30, DOI 10.1007/978-3-319-0078301. Alignment of Carbon Nanotubes via Electrohydrodynamically-Driven Patterning of Nanocomposites. Goldberg Oppenheimer, P. Springer, 2013, pp 63-78, DOI 10.1007/978-3-319-0078302. Rapid Patterning of Low-Viscosity Resists Using Electrohydrodynamic Lithography. Goldberg Oppenheimer, P. Springer, 2013, pp 47-61, DOI 10.1007/978-3-319-0078304. Electrohydrodynamic Lithography of a Conducting Polymer. Goldberg Oppenheimer, P. Springer, 2013, pp 107-115, DOI 10.1007/978-3-319-00783-08. Experimental Tools and Analytical Techniques. Goldberg Oppenheimer, P. Springer, 2013, pp 31-46, DOI 10.1007/978-3-319-0078303. Adhesive Properties of Gecko-Inspired Mimetic via Micro-Patterned Carbon Nanotube Forests. Chen, B., Goldberg Oppenheimer, P.,* Shean, T., Tobias W., Hofmann, S., and Robertson, J. Journal of Physical Chemistry C, 2012, 116 (37), pp 20047–20053. Hierarchical Electrohydrodynamic Structures for Surface-Enhanced Raman Scattering. Goldberg-Oppenheimer, P., Mahajan, S. and Steiner, U. Advanced Optical Materials, 2012, 24, pp OP175–OP180. DOI: 10.1002/adma.201104159. Optimized vertical carbon nanotube forests for multiplex surface-enhanced Raman scattering detection. Goldberg Oppenheimer, P.*, Hutter, T., Chen, B., Hofmann, S., Robertson, J., and Mahajan, S. The Journal of Physical Chemistry Letters, 2012, 3, pp 3486-3492. ISSN 1948-7185. Patterning of Crystalline Organic Materials via Electrohydrodynamic Lithography. Goldberg Oppenheimer, P., Kohn, P., Langford, R. and Steiner, U. Small, 2012, 8(6), pp 2595-2601. Hierarchical Electrohydrodynamic Structures for Surface-Enhanced Raman Scattering. Goldberg-Oppenheimer, P., Mahajan, S. and Steiner, U. Advanced Materials, 2012, 24, pp OP174. DOI: 10.1002/adma.201290143. Electrically Conductive Polymeric Photonic Crystals. Imai, Y., Finlayson, C. E., Goldberg Oppenheimer, P., Zhao, Q., Spahn, P., Snoswell, D. R.E., Haines, A., Hellman, P. and Baumberg, J.J. Soft matter, 2012, DOI: 10.1039/C2SM06740D. Optical Feedback Mechanisms in Laser Induced Growth of Carbon Nanotube Forests. M. C. D. Bock, R. Denk, C. T. Wirth, P. Goldberg Oppenheimer, S. Hofmann, and J. J. Baumberg, Applied Physics Letters, 2012, 100, p 013112. Carbon Nanotubes Alignment via Electrohydrodynamic Patterning of Nanocomposites. Goldberg Oppenheimer, P., Eder, D. and Steiner, U. Advanced Functional Materials, 2011, 21(10), pp 1895-1901. Rapid Electrohydrodynamic Lithography Using Low Viscosity Polymers. Goldberg Oppenheimer, P., and Steiner, U. Small, 2010, (6), pp 248-1254. Preparation and Characterization of a Novel Pyrrole-benzophenone Copolymerized Silica Nanocomposite as a Reagent in a Visual Immunologic-agglutination Test. Goldberg Oppenheimer, P., Cosnier S, Marks RS and Regev, O. Talanta, 2008, 75 (5), pp 1324-1331. Exploring a Nanotube Dispersion Mechanism with Gold-labeled Proteins via cryo-TEM Imaging. Goldberg Oppenheimer, P. and Regev, O. Small, 2007, 3(11), pp 1894-1899. Proton Enriched High-surface Area Cesium Salt of Phosphotungstic Heteropolyacid with Enhanced Catatlytic Activity Fabricated by Nanocasting Strategy. Madhusudhan Rao, P., Goldberg Oppenheimer, P., Kababya, S., Vega, S. and Landau MV. Journal of Molecular Catalysis A: Chemical, 2007, (275), pp 214-227.