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ADVANCED

NANO-MATERIALS

STRUCTURES AND

APPLICATIONS

"Somewhere, something incredible is waiting to be known. - C. Sagan"
"Somewhere, something incredible is waiting to be known. - C. Sagan"
2022
Photobiomodulation reduces hippocampal apoptotic cell death and produces a Raman spectroscopic “signature”. PLoS ONE, 17(3), e02645332022, 2022
Review: Emerging Oculomics Based Diagnostic Technologies for Traumatic Brain Injury. Georgia Harris, Jonathan James Stanley Rickard, Gibran Butt, Liam Kelleher, Richard Blanch, Jonathan M Cooper, Pola Goldberg Oppenheimer. IEEE Reviews in Biomedical Engineering, 10.1109/RBME.2022.3161352, 2022
Raman spectroscopy as a neuromonitoring tool in traumatic brain injury: a systematic review and clinical perspectives. Andrew Robert Stevens *, Clarissa Angela Stickland, Georgia Harris, Zubair Ahmed, Pola Goldberg Oppenheimer, Antonio Belli, David James Davies. Cells, 11(7), 1227, 2022
Development of Optical Nanometamaterials from Viral Bacteriophage Building Blocks Advanced Optical Materials, 10, 13, 2102784, 2022
Optimization of Nanosubstrates toward Molecularly Surface-Functionalized Raman Spectroscopy. Paulo De Carvalho Gomes, Mike Hardy, Yazmin Tagger, Jonathan James Stanley Rickard Prof, Paula M. Mendes, Pola Goldberg Oppenheimer. Journal of Physical Chemistry C, 126, 32, 13774, 2022
Raman Spectroscopy Could Address Molecular Diagnostics Issues. Azo Optics. 13, 2022
Real-time Validation of Surface-Enhanced Raman Scattering Substrates via Convolutional Neural Network Algorithm. Paulo de Carvalho Gomes, Alexander Crossman, Emily Massey, Jonathan James Stanley Rickard, Pola Goldberg Oppenheimer. Informatics in Medicine Unlocked, 33, 101076, 2022
Emerging Raman Spectroscopy and Saliva Based Diagnostics: from Challenges to Applications. Emma Buchan, Mike Hardy, Paulo de Carvalho Gomes, Liam Kelleher, Hin On Martin Chu, Pola Goldberg Oppenheimer. Applied Spectroscopy Reviews, 2022
2021
Development and Characterization of a Probe Device toward Intracranial Spectroscopy of Traumatic Brain Injury. Mowbray, M., Banbury, C., Rickard, J. J. S., Davies, D. J., Goldberg Oppenheimer, P. ACS Biomaterials Science and Engineering, 7, 3, 1252, 2021
Raman Spectroscopy demonstrates biomolecular changes and predicts response to biological therapy in inflammatory bowel disease. Samuel Smith, Carl Banbury, Davide Zardo, Rosanna Cannatelli, Olga Nardone, Uday Shivaji, Subrata Ghosh, Pola Goldberg Oppenheimer, Marietta Iacucci Gut, 70, 125, 2021
Detection Limits are Central to Improve Reporting Standards When Using Nile Red for Microplastic Quantification. A. J. Chetwynd, G. H. Sambrook Smith, H. Margenat, I. Mansfield, I. Lynch, L. Kelleher, P. Goldberg Oppenheimer, S. Krause, Chemosphere, 2021
Raman Spectroscopy can differentiate mucosal healing from non-healing in inflammatory bowel disease. Smith, B., Nabury, C., Zardo, D., Nardone, O., Shivaji, U., Ghosh, S., Goldberg Oppenheimer, P., Iacucci, M. Gut, 70, 124, 2021
Spectroscopic Profiling Variations in Extracellular Vesicle Biochemistry in a Model of Myogenesis. Davies, o., Powell, S. Rickard, J., Clancy, M. Goldberg Oppenheimer, P. Journal of Tissue Engineering, 2021
Raman Spectroscopy accurately differentiates mucosal healing from non-healing and biochemical changes following biological therapy in inflammatory bowel disease" PloS One, 2021
Methods in Raman Spectroscopy for Saliva Studies – a Review. Mike Hardy, Liam Kelleher, P. de Carvalho Gomes, E. Buchan, Hin On Martin Chu, P. Goldberg Oppenheimer Applied Spectroscopy Reviews, 1, 2021
Spectroscopic Molecular-Fingerprint Profiling of Saliva. Emma Buchan, Liam Kelleher, Michael Clancy, Jonathan James Stanley Rickard, Pola Goldberg Oppenheimer. Analytica Chimica Acta, 1185, 339074, 2021
2020
Rapid optofluidic detection of biomarkers for traumatic brain injury via surface-enhanced Raman spectroscopy. Rickard, J.J.S., Di-Pietro, V., Smith, D., Davies, D. J., Belli, A., Goldberg Oppenheimer, P. Nature Biomedical Engineering, 2020, 4, 610-623
Brain injury diagnosed with a finger prick and an optofluidic chip. Physics World, 2020
Commentary on: Rapid detection of traumatic brain injury. Nature Biomedical Engineering, News and Views, 2020, 4, 579-580
Electrofluidynamic patterning of tailorable nanostructured substrates for surface-enhanced Raman scattering. De Carvalho Gomes, P., Rickard, J.J.S and Goldberg Oppenheimer, P. ACS Applied Nano Materials, 2020
Determination and Characterisation of the Surface Charge Properties of the Bacteriophage M13 to Assist Bio-nanoengineering. Passaretti, P., Sun, Y., Dafforn, T.R. and Goldberg Oppenheimer, P. RSC Advances, 2020, 10, 25385-25392
Microptofluidic Technology for Biodiagnostics of Traumatic Brain Injury: A Commentary. P. Goldberg Oppenheimer. J. Experimental Neurology, 2020, 1 (3), 80-88
Raman spectroscopy can differentiate mucosal healing from non-healing in inflammatory bowel disease. Gastrointestinal Endoscopy, 2020, 91, 6
Dataset files.zip for the study on the: Rapid optofluidic detection of biomarkers for traumatic brain injury via surface-enhanced Raman spectroscopy. Rickard, J.J. and Goldberg Oppenheimer, P., figshare, 2020
Detection limits are central to improve reporting standards when using Nile Red for microplastic quantification. Chetwynd, A. J., Sambrook Smith, G.H., Margenat, H., Mansfield, I., Lynch, I., Kelleher, L., Goldberg Oppenheimer, P., Onoja, S., Krause, S.emosphere, 2020, 263, 127953
Nanomechanics of Graphene Oxide-Bacteriophage Based Self-Assembled Porous Composites. Sun, Y. Passaretti, P. Hernandez, I. Gnzalez, J. Liu, W. Rodriguez, F. Dunstan, D. Oppenheimer, P. Humphreys, C. Scientific Reports, 2020, 10, 15618
Spectroscopic Detection of Traumatic Brain Injury Severity and Biochemistry from the Retina. Banbury, C. I. Styles, N. Eisenstein, E. Zanier, A. Logan, A. Belli, P. Goldberg Oppenheimer, Biomedical Optics Express, 2020, 11, 6249
Improvements in the production of purified M13 bacteriophage bio-nanoparticle. P. Passaretti, I. Khan, T. Dafforn, P. Goldberg Oppenheimer, Scientific Reports, 2020, 10, 18538
Review-Tuberculosis Diagnostics: Overcoming Ancient Challenges with Modern Solutions. Emerging Topics in Life Sciences, 2020, 4 (4), 435
2019
Multifunctional graphene oxide-bacteriophage based porous three-dimensional micro-nanocomposites. Passaretti, P., Sun, Y., Khan, I., Chan, K., Sabo, R., White, H., Dafforn, T.R. and Goldberg Oppenheimer, P. Nanoscale, 2019, 11, 13318-13329
Tuneable Metamaterial-like Platforms for Surface-Enhanced Raman Scattering via Three-Dimensional Block Co-polymer-Based Nanoarchitectures. Banbury, C., Rickard, J.J.S., Mahajan, S. and Goldberg Oppenheimer, P. ACS Applied Materials and Interfaces 2019, 11, 15, 14437-14444
Efficient and Stable PbS Quantum Dot Solar Cells by Triple-Cation Perovskite Passivation. Albaladejo-Siguan, M., Becker-Koch, D., Taylor, A.D., Sun, Q., Lami, V., Goldberg Oppenheimer, P., Paulus, F., Vaynzof, Y. ACS Nano 2019
Development of the Self Optimising Kohonen Index Network (SKiNET) for Raman Spectroscopy Based Detection of Anatomical Eye Tissue. Banbury, C., Mason, R., Styles, I., Eisenstein, N., Clancy, M., Belli, A., Logan, A., Goldberg Oppenheimer, P. Scientific Reports, 2019, 9, 10812
Effect of humidity on the interlayer interaction of bilayer graphene. Qadir, A., Sun, Y., Liu, W., Goldberg Oppenheimer, P., Humphreys, C.J., and Dunstan, D. J. Physical Review B, 2019, 99, 045402
Traumatic Brain Injury Detection. Banbury, C., Clancy, M., Eisenstien, N., Goldberg Oppenheimer, P. HGF Ref. P276184GB / CM / CH, UK Patent Application No 1913476.6
2018
Surface Enhanced Raman Scattering Apparatus and Method. Goldberg Oppenheimer, P., Rickard, J. J. S., Di-Pietro, V., Belli., A. International Application Published Under the Patent Cooperation Treaty (PCT) under no. WO/2018/138488, 2018
The Effect of Humidity on the Interlayer Interaction of Bi-layer Graphene. Qadir, A., Sun, Y., Liu, W., Goldberg Oppenheimer, P., Humphreys, C.J., and Dunstan, D. J. Physical Review B, 2018
Dye Aggregate-Mediated Self-Assembly of Bacteriophage Bioconjugates. Tridgett, M., Lozano, L. Passaretti, P., R. Desai, N., Proctor, T.J., Little, H.A., Logan, R.T., Arkill, K., Goldberg Oppenheimer, P. and R. Dafforn, T. Bioconjugate Chemistry, 2018
Fabrication of Optimized Skin Biomimics for Improved Interfacial Retention of Cosmetic Emulsions. Gkotsis, G., Rickard, J.J., Brooker, A., Bakalis, S., Grover, L., Goldberg Oppenheimer, P. Journal of the Royal Society of Interface, 2018, 15, 20180332
Influence of Cobalt Ions on Collagen Gel Formation and Their Interaction with Osteoblasts. McCarthy, E., Floyd, H., Addison, O., Zhang, J.Z., Goldberg Oppenheimer, P., Grover, L. ACS Omega, 2018, 3, 8, 10129-10138
2017
Tunable Superapolar Lotus-to-Rose Hierarchical Nanosurfaces via Vertical Carbon Nanotubes Driven Electrohydrodynamic Lithography. Busà, C., Rickard, J.J. S., Chun, E., Chong, Y., Navaratnam, V., Goldberg Oppenheimer, P. Nanoscale, 2017, 9, 1625–1636
Surface Enhanced Raman Scattering Apparatus and Method. Goldberg Oppenheimer, P., Rickard, J. J. S., Di-Pietro, V., Belli, A. Patent Pending, 1701182.6, 2017
Soluble Silicon Patterns and Templates: Calcium Phosphate Nanocrystal Deposition in Collagen Type 1. Birdi-Chouhan, G., Shelton, R. M., Bowen, J., Goldberg Oppenheimer, P., Page, S. J., Hanna, J.V., Peacock, A., Wright, A. J., Grover, L. RSC Advances, 2017,6, 99809.
2016
Tunable Nanopatterning of Conductive Polymers via Electrohydrodynamic Lithography. Rickard J.J.S., Farrer I., Goldberg Oppenheimer P. ACS Nano, 2016, 10, 3865-3870
Conductive and SERS-active colloidal gold films spontaneously formed at a liquid/liquid interface. Yin X., Peretz Y., Goldberg Oppenheimer P., Ziri L., Masarwa A., Froumin N., Jelinek R. RSC Advances, 2016, 6, 33326-33331
Length-Selective Chemical Assembly of Vertically Aligned Carbon Nanotubes. Hussein Z., Rawson F., Goldberg Oppenheimer P., Acton A., Mendes P.M. Advanced Materials Interfaces, 2016, DOI: 10.1002/admi.201500860 2016-04-25
Advanced Lithographic Micro Surfaces for Biodiagnostics. Rickard J.J.S., Goldberg Oppenheimer P. Nano-World Magazine, 2016, 3
2015
Review:Exploiting contraction to structure tissues in vitro. Wudebwe U.N.G.,Bannerman A., Goldberg Oppenheimer P., Paxton J., Williams R. and Liam Grover L. Philosophical Transactions of the Royal Society B, 2015, 370, 1661 20140200
Influence of Packing Density and Surface Roughness of Vertically-Aligned Carbon Nanotubes on Adhesive Properties of Gecko-Inspired Mimetics. Chen B., Zhong G., Goldberg Oppenheimer P., Zhang C., Tornatzky H., Esconjauregui S., Hofmann S. and Roberston J. ACS Applied Materials and Interfaces, 2015, 7 (6), pp 3626-3632
Book Chapter Contribution in: Instability-Based Methods for Patterning Polymer Surfaces. Goldberg Oppenheimer P. Springer Ed.USA. 2015
2014
In vitro evaluation of the biological mechanism of soluble silicon in bone mineralisation. Birdi G., Shelton R.M., Bowen J., Goldberg Oppenheimer P. and Grover L. Acta Biomaterialia, Submitted, 2014
Hybrids of carbon Nanotube Forests and Gold Nanoparticles for Improved Surface Plasmon Manipulation. Makaryan T., Esconjauregui S., Goncalves M., Yang J., Sugime H., Nille D., Renganathan P.R., Goldberg Oppenheimer, P. and Robertson J. ACS Applied Materials &. Interfaces, 2014, 6 (8), pp 5344-5349
Tuneable Micro-Structured Surface Enhanced Raman Scattering Substrates via Electrohydrodynamic Lithography. Mahajan S., Hutter T., Steiner U. and Goldberg Oppenheimer P. The Journal of Physical Chemistry Letters, 2014, 4, pp 4153-4159
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, 2014
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
2012
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
2011
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
2010
Rapid Electrohydrodynamic Lithography Using Low Viscosity Polymers. Goldberg Oppenheimer P., and Steiner U. Small, 2010, (6), pp 248-1254
2008
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 R.S. and Regev O. Talanta, 2008, 75 (5), pp 1324-1331
2007
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