John Boland
Professor
Chemistry
Trinity College Dublin
Ireland
Biography
Prof. Boland received his BSc degree from University College Dublin and PhD from the California Institute of Technology. He is a Professor in the School of Chemistry at Trinity College Dublin and Director of the Centre for Research on Adaptive Nanostructures and Nanodevices (CRANN). Prof. Boland was previously a researcher at the IBM T.J. Watson Research Centre, and the J.J. Hermans Professor of Chemistry and Applied and Materials Sciences at the University of North Carolina at Chapel Hill. His current research interests involve the electrical and mechanical properties of nanoscale materials, and molecular recognition and assembly and nanoscale contact formation
Research Interest
Nanoscience,Advancement of Science
Publications
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Daly R, Kotova O, Boese M, Gunnlaugsson T, Boland JJ, Chemical nano-gardens: growth of salt nanowires from supramolecular self-assembly gels, ACS nano, 7, (6), 2013, p4838-45
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Naydenov, B, Boland, JJ, Engineering the electronic structure of surface dangling bond nanowires of different size and dimensionality, NANOTECHNOLOGY, 24, (27), 2013, p1 - 7
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Yue, Y. Bai, Y. Muhammed Basheer, P.A. Boland, J.J. Wang, J.J., Monitoring the cementitious materials subjected to sulfate attack with optical fiber excitation Raman spectroscopy, Optical Engineering, 52, (10), 2013, p104107-1 - 104107-10
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Daly, R, Sader, JE, Boland, JJ, The dominant role of the solvent-water interface in water droplet templating of polymers, SOFT MATTER, 9, (33), 2013, p7960-7965
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Byrne,Joseph P. J.P., Kitchen,Jonathan A. J.A., Kotova,Oxana V. O.V., Leigh,Vivienne V., Bell,Alan P. A.P., Boland,John J. J.J., Albrecht,Martin M., Gunnlaugsson,Thorfinnur T., Synthesis, structural, photophysical and electrochemical studies of various d-metal complexes of btp [2,6-bis(1,2,3-triazol-4-yl)pyridine] ligands that give rise to the formation of metallo-supramolecular gels, Dalton Transactions, 43, (1), 2014, p196 - 209
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O Kelly, C. Fairfield, J.A. Boland, J.J., A single nanoscale junction with programmable multilevel memory, ACS Nano, 8, (11), 2014, p11724 - 11729
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J. A. Fairfield, C. Ritter, A. T. Bellew, M. S. Ferreira and J. J. Boland, "Effective Electrode Length Enhances Electrical Activation of Nanowire Networks: Experiment and Simulation", ACS Nano, 8, (9), 2014, p9542 - 9549
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Bellew, A.T. Bell, A.P. McCarthy, E.K. Fairfield, J.A. Boland, J.J., Programmability of nanowire networks, Nanoscale, 6, (16), 2014, p9632 - 9639
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Peter Gleeson, Kevin Lin, Alexis Potie, Chytra Pawashe, Johann P de Silva, Graham L W Cross and John J Boland, The effect of device fabrication on quasi-static elastic behaviour of silicon nanocantilever arrays, J. MICROMECH MICROENG, 25 (125007), 2015, p1 - 8
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Martinez-Calvo M, Kotova O, Mobius M.E, Bell A.P, McCabe T, Boland J.J, Gunnlaugsson T, Healable luminescent self-assembly supramolecular metallogels possessing lanthanide (Eu/Tb) dependent rheological and morphological properties, Journal of the American Chemical Society, 137, (5), 2015, p1983 - 1992
