Articles with public access mandates - Christian PfrangLearn more
Available somewhere: 46
Indoor air pollution and the health of vulnerable groups: a systematic review focused on particulate matter (PM), volatile organic compounds (VOCs) and their effects on …
TZ Maung, JE Bishop, E Holt, AM Turner, C Pfrang
International journal of environmental research and public health 19 (14), 8752, 2022
Mandates: UK Natural Environment Research Council
Anthropogenic air pollutants reduce insect-mediated pollination services
JMW Ryalls, B Langford, NJ Mullinger, LM Bromfield, E Nemitz, C Pfrang, ...
Environmental Pollution 297, 118847, 2022
Mandates: UK Natural Environment Research Council
Ozonolysis of methyl oleate monolayers at the air–water interface: oxidation kinetics, reaction products and atmospheric implications
C Pfrang, F Sebastiani, COM Lucas, MD King, ID Hoare, D Chang, ...
Physical Chemistry Chemical Physics 16 (26), 13220-13228, 2014
Mandates: UK Natural Environment Research Council
Control of nanomaterial self-assembly in ultrasonically levitated droplets
AM Seddon, SJ Richardson, K Rastogi, TS Plivelic, AM Squires, C Pfrang
The journal of physical chemistry letters 7 (7), 1341-1345, 2016
Mandates: UK Natural Environment Research Council
Complex three-dimensional self-assembly in proxies for atmospheric aerosols
C Pfrang, K Rastogi, ER Cabrera-Martinez, AM Seddon, C Dicko, ...
Nature Communications 8 (1), 1724, 2017
Mandates: UK Natural Environment Research Council
Reaction of a phospholipid monolayer with gas-phase ozone at the air− water interface: measurement of surface excess and surface pressure in real time
KC Thompson, AR Rennie, MD King, SJO Hardman, COM Lucas, ...
Langmuir 26 (22), 17295-17303, 2010
Mandates: Swedish Research Council
Can houseplants improve indoor air quality by removing CO2 and increasing relative humidity?
C Gubb, T Blanusa, A Griffiths, C Pfrang
Air Quality, Atmosphere & Health 11, 1191-1201, 2018
Mandates: UK Engineering and Physical Sciences Research Council
Interaction of nitrogen dioxide (NO2) with a monolayer of oleic acid at the air–water interface–A simple proxy for atmospheric aerosol
MD King, AR Rennie, C Pfrang, AV Hughes, KC Thompson
Atmospheric Environment 44 (14), 1822-1825, 2010
Mandates: Swedish Research Council
Nighttime oxidation of surfactants at the air–water interface: effects of chain length, head group and saturation
F Sebastiani, RA Campbell, K Rastogi, C Pfrang
Atmospheric Chemistry and Physics 18 (5), 3249-3268, 2018
Mandates: UK Natural Environment Research Council
Assessing urban greenery by harvesting street view data: A review
Y Lu, EJS Ferranti, L Chapman, C Pfrang
Urban Forestry & Urban Greening 83, 127917, 2023
Mandates: UK Engineering and Physical Sciences Research Council, UK Natural …
An organic crystalline state in ageing atmospheric aerosol proxies: spatially resolved structural changes in levitated fatty acid particles
A Milsom, AM Squires, JA Boswell, NJ Terrill, AD Ward, C Pfrang
Atmospheric Chemistry and Physics 21 (19), 15003-15021, 2021
Mandates: UK Engineering and Physical Sciences Research Council, UK Natural …
The persistence of a proxy for cooking emissions in megacities: a kinetic study of the ozonolysis of self-assembled films by simultaneous small and wide angle X-ray scattering …
A Milsom, AM Squires, B Woden, NJ Terrill, AD Ward, C Pfrang
Faraday Discussions 226, 364-381, 2021
Mandates: UK Natural Environment Research Council
Simultaneous neutron reflectometry and infrared reflection absorption spectroscopy (IRRAS) study of mixed monolayer reactions at the air–water interface
MWA Skoda, B Thomas, M Hagreen, F Sebastiani, C Pfrang
RSC advances 7 (54), 34208-34214, 2017
Mandates: UK Natural Environment Research Council
The impact of molecular self-organisation on the atmospheric fate of a cooking aerosol proxy
A Milsom, AM Squires, AD Ward, C Pfrang
Atmospheric Chemistry and Physics 22 (7), 4895-4907, 2022
Mandates: UK Natural Environment Research Council
Potted plants can remove the pollutant nitrogen dioxide indoors
C Gubb, T Blanusa, A Griffiths, C Pfrang
Air Quality, Atmosphere & Health 15 (3), 479-490, 2022
Mandates: UK Engineering and Physical Sciences Research Council
Ozonolysis of fatty acid monolayers at the air–water interface: organic films may persist at the surface of atmospheric aerosols
B Woden, MWA Skoda, A Milsom, C Gubb, A Maestro, J Tellam, C Pfrang
Atmospheric Chemistry and Physics 21 (2), 1325-1340, 2021
Mandates: UK Natural Environment Research Council
Interference from alkenes in chemiluminescent NO measurements
MS Alam, LR Crilley, JD Lee, LJ Kramer, C Pfrang, M Vázquez-Moreno, ...
Atmospheric Measurement Techniques 13 (11), 5977-5991, 2020
Mandates: UK Natural Environment Research Council, European Commission, Government of …
The reaction of oleic acid monolayers with gas-phase ozone at the air water interface: The effect of sub-phase viscosity, and inert secondary components
MD King, SH Jones, COM Lucas, KC Thompson, AR Rennie, AD Ward, ...
Physical Chemistry Chemical Physics 22 (48), 28032-28044, 2020
Mandates: UK Engineering and Physical Sciences Research Council, UK Natural …
Night-time oxidation of a monolayer model for the air–water interface of marine aerosols—a study by simultaneous neutron reflectometry and in situ infra-red reflection …
B Woden, MWA Skoda, M Hagreen, C Pfrang
Atmosphere 9 (12), 471, 2018
Mandates: UK Natural Environment Research Council, UK Science and Technology …
MultilayerPy (v1. 0): a Python-based framework for building, running and optimising kinetic multi-layer models of aerosols and films
A Milsom, A Lees, AM Squires, C Pfrang
Geoscientific Model Development 15 (18), 7139-7151, 2022
Mandates: UK Natural Environment Research Council
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