Andrew J Pollard
Andrew J Pollard
Principal Research Scientist, National Physical Laboratory (NPL)
Verified email at - Homepage
Cited by
Cited by
Effect of disorder on Raman scattering of single-layer
S Mignuzzi, AJ Pollard, N Bonini, B Brennan, IS Gilmore, MA Pimenta, ...
Physical Review B 91 (19), 195411, 2015
Multifunctional nanoprobes for nanoscale chemical imaging and localized chemical delivery at surfaces and interfaces
Y Takahashi, AI Shevchuk, P Novak, Y Zhang, N Ebejer, JV Macpherson, ...
Angewandte Chemie International Edition 50 (41), 9638-9642, 2011
Antiviral surfaces and coatings and their mechanisms of action
PD Rakowska, M Tiddia, N Faruqui, C Bankier, Y Pei, AJ Pollard, J Zhang, ...
Communications Materials 2 (1), 53, 2021
Understanding and Controlling Cu-Catalyzed Graphene Nucleation: The Role of Impurities, Roughness, and Oxygen Scavenging
P Braeuninger-Weimer, B Brennan, AJ Pollard, S Hofmann
Chemistry of Materials 28 (24), 8905-8915, 2016
Nucleation control for large, single crystalline domains of monolayer hexagonal boron nitride via Si-doped Fe catalysts
S Caneva, RS Weatherup, BC Bayer, B Brennan, SJ Spencer, K Mingard, ...
Nano letters 15 (3), 1867-1875, 2015
Supramolecular assemblies formed on an epitaxial graphene superstructure
AJ Pollard, EW Perkins, NA Smith, A Saywell, G Goretzki, AG Phillips, ...
Angewandte Chemie 122 (10), 1838-1843, 2010
Unlocking thermogravimetric analysis (TGA) in the fight against “Fake graphene” materials
F Farivar, PL Yap, K Hassan, TT Tung, DNH Tran, AJ Pollard, D Losic
Carbon 179, 505-513, 2021
Nanoscale chemical imaging using tip-enhanced Raman spectroscopy
N Kumar, BM Weckhuysen, AJ Wain, AJ Pollard
Nature protocols 14 (4), 1169-1193, 2019
Formation of monolayer graphene by annealing sacrificial nickel thin films
AJ Pollard, RR Nair, SN Sabki, CR Staddon, LMA Perdigao, CH Hsu, ...
The Journal of Physical Chemistry C 113 (38), 16565-16567, 2009
Nanoscale chemical imaging of solid–liquid interfaces using tip-enhanced Raman spectroscopy
N Kumar, W Su, M Veselı, BM Weckhuysen, AJ Pollard, AJ Wain
Nanoscale 10 (4), 1815-1824, 2018
Quantitative characterization of defect size in graphene using Raman spectroscopy
AJ Pollard, B Brennan, H Stec, BJ Tyler, MP Seah, IS Gilmore, D Roy
Applied Physics Letters 105 (25), 253107, 2014
In Situ Graphene Growth Dynamics on Polycrystalline Catalyst Foils
RS Weatherup, AJ Shahani, ZJ Wang, K Mingard, AJ Pollard, ...
Nano Letters 16 (10), 6196-6206, 2016
Raman fingerprints of graphene produced by anodic electrochemical exfoliation
V Nagyte, DJ Kelly, A Felten, G Picardi, YY Shin, A Alieva, RE Worsley, ...
Nano Letters 20 (5), 3411-3419, 2020
Production of few-layer graphene by microfluidization
KR Paton, J Anderson, AJ Pollard, T Sainsbury
Materials Research Express 4 (2), 025604, 2017
Covalent Carbene Functionalization of Graphene: Toward Chemical Band-Gap Manipulation
T Sainsbury, M Passarelli, M Naftaly, S Gnaniah, SJ Spencer, AJ Pollard
ACS applied materials & interfaces 8 (7), 4870-4877, 2016
High-resolution electrochemical and topographical imaging using batch-fabricated cantilever probes
AJ Wain, AJ Pollard, C Richter
Analytical chemistry 86 (10), 5143-5149, 2014
Probing individual point defects in graphene via near-field Raman scattering
S Mignuzzi, N Kumar, B Brennan, IS Gilmore, D Richards, AJ Pollard, ...
Nanoscale 7 (46), 19413-19418, 2015
How Does Graphene Grow? Easy Access to Well‐Ordered Graphene Films
F Müller, H Sachdev, S Hüfner, AJ Pollard, EW Perkins, JC Russell, ...
Small 5 (20), 2291-2296, 2009
Nanoscale optical spectroscopy: an emerging tool for the characterization of graphene and related 2-D materials
AJ Pollard, N Kumar, A Rae, S Mignuzzi, W Su, D Roy
J. Mat. NanoSci 1, 39-49, 2014
Structural, chemical and electrical characterisation of conductive graphene-polymer composite films
B Brennan, SJ Spencer, NA Belsey, T Faris, H Cronin, SRP Silva, ...
Applied Surface Science 403, 403-412, 2017
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