Zobrazeno 1 - 10
of 16
pro vyhledávání: '"Philip E. Lyons"'
Autor:
Georg S. Duesberg, Navin Kumar Verma, Philip E. Lyons, Yuri Volkov, Ronan J. Smith, I.T. McGovern, Hannah C. Nerl, Nina C. Berner, Valeria Nicolosi, Hugh J. Byrne, Niall McEvoy, Luke A. J. O'Neill, Umar Khan, Jonathan N. Coleman, Caroline Moore, Jennifer McIntyre
Publikováno v:
Articles
Understanding the correlation between the physico-chemical properties of carbonaceous nanomaterials and how these properties impact on cells and subcellular mechanisms is critical to their risk assessment and safe translation into newly engineered de
Autor:
Hardy Kornfeld, Jonathan N. Coleman, Dermot Kelleher, Navin Kumar Verma, Jennifer Conroy, Philip E. Lyons, Mary P. O'Sullivan, Yuri Volkov
Publikováno v:
Toxicology and Applied Pharmacology
Nanomaterials and their enabled products have increasingly been attracting global attention due to their unique physicochemical properties. Among these emerging products, silver nanowire (AgNW)-based thin films are being developed for their promising
Autor:
Jonathan N. Coleman, Allen T. Bellew, Jamil Elias, John J. Boland, Matthias Schamel, Philip E. Lyons, Laetitia Philippe, Sukanta De
Publikováno v:
The Journal of Physical Chemistry Letters. 2:3058-3062
We report the deposition and characterization of thin networks of gold nanowires on plastic substrates. The average nanowire diameter was 47 nm, while the networks had mean thicknesses in the range of 35–750 nm. The conductivity of networks with me
Publikováno v:
Nano Letters. 9:3890-3895
Transport in single-walled carbon nanotubes (SWCNTs) networks is shown to be dominated by resistance at network junctions which scale with the size of the interconnecting bundles. Acid treatment, known to dope individual tubes, actually produces a dr
Autor:
Evelyn M. Doherty, John J. Boland, Thomas M. Higgins, Peter N. Nirmalraj, Werner J. Blau, Sukanta De, Philip E. Lyons, Jonathan N. Coleman
Publikováno v:
ACS Nano. 3:1767-1774
We have used aqueous dispersions of silver nanowires to prepare thin, flexible, transparent, conducting films. The nanowires are of length and diameter close to 6.5 μm and 85 nm, respectively. At low thickness, the films consist of networks but appe
Autor:
Paul J. King, Sukanta De, Jerome Joimel, Peter N. Nirmalraj, Philip E. Lyons, John J. Boland, Sophie Sorel, Vittorio Scardaci, Werner J. Blau, Jonathan N. Coleman, Evelyn M. Doherty
Publikováno v:
ACS Nano. 3:714-720
We have prepared flexible, transparent, and very conducting thin composite films from poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate), filled with both arc discharge and HIPCO single-walled nanotubes, at high loading level. The films are of h
Autor:
and Philip E. Lyons, Umar Khan, Johnny Amiran, Jonathan N. Coleman, Shane D. Bergin, Valeria Nicolosi
Publikováno v:
The Journal of Physical Chemistry C. 112:3519-3524
Single walled nanotubes are difficult to disperse in solvents, with dispersion quality limited by nanotube bundling at high concentration. We quantitatively study dispersions of singlewall nanotubes, functionalized with the bulky molecules PABS, PEG,
Publikováno v:
Carbon. 46:41-47
We have studied the mechanical and morphological properties of carbon nanotube films prepared from tubes produced by a range of commercial suppliers. We find significant correlations between mechanical parameters (modulus, strength, toughness and duc
Spray deposition of highly transparent, low-resistance networks of silver nanowires over large areas
A method to produce scalable, low-resistance, high-transparency, percolating networks of silver nanowires by spray coating is presented. By optimizing the spraying parameters, networks with a sheet resistance of R(s) ≈ 50 Ω □(-1) at a transparen
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::876d134e96bbd9a65166dd4477dd3392
http://hdl.handle.net/20.500.11769/481939
http://hdl.handle.net/20.500.11769/481939
Publikováno v:
ACS nano. 4(12)
Much research is underway at present to develop nanostructured transparent conductors for use as electrodes. Transparent electrodes typically require high visible transmittances, T90%, and so must be very thin. We show that for most nanostructured fi