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Browsing publications by Professor Paul Christensen

Newcastle AuthorsTitleYearFull text
Professor Paul Christensen
Zeinab Mashhadani
A Direct Fourier Transform Infrared Spectroscopic Comparison of the Plasma- and Thermally-Driven Reaction of CO2 at Macor2018
Professor Paul Christensen
Zeinab Mashhadani
In situ FTIR studies on the oxidation of isopropyl alcohol over SnO2 as a function of temperature up to 600 oC and a comparison to the analogous plasma-driven process2018
Professor Paul Christensen
Halim Bin Md Ali
Zeinab Mashhadani
Dr Michael Carroll
The Production of Ketene and C5O2 from CO2, N2 and CH4 in a Non-thermal Plasma Catalysed by Earth-Abundant Elements: An In-Situ FTIR Study2018
Professor Paul Christensen
Zeinab Mashhadani
Dr Michael Carroll
The Production of Methane, Acetone, “Cold” CO and Oxygenated Species from Isopropyl Alcohol in a Non-Thermal Plasma: An In-Situ FTIR Study2018
Dr Pierrot Attidekou
Chen Wang
Dr Matthew Armstrong
Dr Simon Lambert
Professor Paul Christensen
et al.
A new time constant approach to online capacity monitoring and lifetime prediction of lithium ion batteries for Electric Vehicles (EV)2017
Dr Simon Lambert
Dr Matthew Armstrong
Chen Wang
Dr Pierrot Attidekou
Professor Paul Christensen
et al.
A rapid non-destructive-testing technique for in-line quality control of Li-ion batteries2017
Professor Paul Christensen
Dr Pierrot Attidekou
Professor Russ Egdell
Supandee Maneelok
Professor David Manning
et al.
The identification of the mechanism of electrocatalytic ozone generation on Ni/Sb-SnO22017
Professor Paul Christensen
Dr Pierrot Attidekou
Professor Russ Egdell
Supandee Maneelok
Professor David Manning
et al.
An in-situ FTIR spectroscopic and thermogravimetric analysis study of the dehydration and dehydoxylation of SnO2: the contribution of the (100), (110) and (111) facets2016
Abdullah Al-Abduly
Professor Paul Christensen
An in situ and downstream study of non-thermal plasma chemistry in an air fed dielectric barrier discharge (DBD)2015
Dr Pierrot Attidekou
Dr Simon Lambert
Dr Matthew Armstrong
Dr James Widmer
Professor Keith Scott
et al.
A study of 40 Ah lithium ion batteries at zero percent state of charge as a function of temperature2014
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