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Andrew Pearson
Andrew Pearson
Towers Group
Verified email at towersgroup.com.au
Title
Cited by
Cited by
Year
Decoration of TiO2 Nanotubes with Metal Nanoparticles using Polyoxometalate as a UV-Switchable Reducing Agent for Enhanced Visible and Solar Light Photocatalysis
A Pearson, H Zheng, K Kalantar-zadeh, SK Bhargava, V Bansal
Langmuir, 2012
1072012
Gold Nanoparticle-Decorated Keggin Ions/TiO2 Photococatalyst for Improved Solar Light Photocatalysis
A Pearson, H Jani, K Kalantar-zadeh, SK Bhargava, V Bansal
Langmuir, 2011
1032011
UV-switchable Polyoxometalate sandwiched between TiO 2 and Metal Nanoparticles for Enhanced Visible and Solar Light Photococatalysis
A Pearson, SK Bhargava, V Bansal
Langmuir, 2011
1012011
Galvanic replacement mediated transformation of Ag nanospheres into dendritic Au–Ag nanostructures in the ionic liquid [BMIM][BF4]
A Pearson, AP O’Mullane, V Bansal, SK Bhargava
Chem. Commun. 46 (5), 731-733, 2009
842009
Galvanic Replacement of Semiconductor Phase I CuTCNQ Microrods with KAuBr4 to Fabricate CuTCNQ/Au Nanocomposites with Photocatalytic Properties
A Pearson, AP O’Mullane, V Bansal, SK Bhargava
Inorganic Chemistry, 2011
712011
Synthesis of CuTCNQ/Au Microrods by Galvanic Replacement of Semiconducting Phase I CuTCNQ with KAuBr4 in Aqueous Medium
A Pearson, AP O’Mullane, SK Bhargava, V Bansal
Inorganic Chemistry, 2012
442012
Mechanisms of low temperature capture and regeneration of CO 2 using diamino protic ionic liquids
TJ Simons, T Verheyen, EI Izgorodina, R Vijayaraghavan, S Young, ...
Physical Chemistry Chemical Physics 18 (2), 1140-1149, 2016
372016
Combining the UV-Switchability of Keggin Ions with a Galvanic Replacement Process to Fabricate TiO2–Polyoxometalate–Bimetal Nanocomposites for Improved …
A Pearson, S Bhosale, SK Bhargava, V Bansal
ACS Applied Materials & Interfaces 5 (15), 7007-7013, 2013
292013
Hybrid CuTCNQ/AgTCNQ metal‐organic charge transfer complexes via galvanic replacement vs corrosion‐recrystallization
A Pearson, R Ramanathan, AP O'Mullane, V Bansal
Advanced Functional Materials 24 (48), 7570-7579, 2014
252014
Fabrication of Metal‐Nanoparticle‐Modified Semiconducting Copper–and Silver–TCNQ Materials as Substrates for the Reduction of Chromium (VI) Using Thiosulfate Ions at Ambient …
A Pearson, AP O'Mullane
ChemPlusChem 78 (11), 1343-1348, 2013
242013
Comparison of Nanostructures obtained from Galvanic Replacement in Water and an Ionic Liquid for Applications in Electrocatalysis and SERS
A Pearson, AP O'Mullane, SK Bhargava, V Bansal
Electrochemistry Communications, 2012
192012
Lateral charge propagation effects during the galvanic replacement of electrodeposited MTCNQ (M= Cu, Ag) microstructures with gold and its influence on catalyzed electron …
A Pearson, V Bansal, AP O’Mullane
Electrochimica Acta 114, 189-197, 2013
182013
The electrochemical cycling and electrodeposition of lead from 1-ethyl-3-methylimidazolium bis (trifluoromethanesulfonyl) imide ionic liquid
TJ Simons, AK Pearson, SJ Pas, DR MacFarlane
Electrochimica Acta 174, 712-720, 2015
162015
Investigating the effect of ionic strength on the suppression of dendrite formation during metal electrodeposition
AK Pearson, P Kao, AP O'Mullane, AI Bhatt
Physical Chemistry Chemical Physics 19 (22), 14745-14760, 2017
112017
The effect of Imidazolium-based Ionic Liquids on the nanoscale morphology of CuTCNQ (TCNQ= 7, 7, 8, 8-tetracyanoquinodimethane) metal-organic semiconductors
A Pearson, AP O'Mullane, SK Bhargava, V Bansal
Langmuir, 2012
112012
Solution-processable do-it-yourself switching devices (DIY devices) based on CuTCNQ metal-organic semiconductors
R Ramanathan, A Pearson, S Walia, AE Kandjani, M Mohammadtaheri, ...
Applied Materials Today 10, 12-17, 2018
82018
A simple approach to improve the electrocatalytic properties of commercial Pt/C
A Pearson, AP O'Mullane
Chemical Communications 51 (56), 11297-11300, 2015
72015
Nanoparticle–electrode collisions as a dynamic seeding route for the growth of metallic nanostructures
A Pearson, AP O'Mullane
Chemical Communications 51 (25), 5410-5413, 2015
72015
Decoration of active sites to create bimetallic surfaces and its implication for electrochemical processes
BJ Plowman, I Najdovski, A Pearson, AP O'Mullane
Faraday Discuss., 2013
62013
O, Mullane, AP; Bhargava, SK; Bansal, V. Synthesis of CuTCNQ/Au microrods by galvanic replacement of semiconducting phase I CuTCNQ with KAuBr4 in aqueous medium
A Pearson
Inorg. Chem 51 (16), 8791-8801, 2012
62012
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