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<div id="publication-lists" class="section level1 tabset tabset-fade">
<h1 class="tabset tabset-fade">Publication lists</h1>
<div id="journal-articles" class="section level2">
<h2>Journal articles</h2>
<p>Liu, X., Zhang, X., Wang, T., Jin, B., Wu, L., Lara, R., Monge, M.,
Reche, C., Jaffrezo, J.-L., Uzu, G., Dominutti, P., Darfeuil, S., Favez,
O., Conil, S., Marchand, N., Castillo, S., Rosa, J. D. de la, Grange,
S., Eleftheriadis, K., Diapouli, E., Gini, M. I., Nava, S., Alves, C.,
Wang, X., Xu, Y., Green, D. C., Beddows, D. C. S., Harrison, R. M.,
Alastuey, A., and Querol, X. (2024). <a
href="https://www.sciencedirect.com/science/article/pii/S0013935124015354">PM<sub>10</sub>
-bound trace elements in pan-European urban atmosphere.</a>
<em>Environmental Research</em> 260, p. 119630.</p>
<p>Grange, S. K., Sintermann, J., and Hueglin, C. (2023). <a
href="https://www.sciencedirect.com/science/article/pii/S0048969723044698">Meteorologically
normalised long-term trends of atmospheric ammonia (NH<sub>3</sub>) in
Switzerland/Liechtenstein and the explanatory role of gas-aerosol
partitioning</a>. <em>Science of the Total Environment</em> 900,
p. 165844.</p>
<p>Colombi, N. K., Jacob, D. J., Yang, L. H., Zhai, S., Shah, V.,
Grange, S. K., Yantosca, R. M., Kim, S., and Liao, H. (2023). <a
href="https://acp.copernicus.org/articles/23/4031/2023/">Why is ozone in
South Korea and the Seoul metropolitan area so high and increasing?</a>
<em>Atmospheric Chemistry and Physics</em> 23.7, pp. 4031–4044.</p>
<p>Borlaza, L. J. S., Nguyen, V. T., Hueglin, C., Jean-Luc, J., Grange,
S. K., and Uzu, G (2023). <a
href="https://pubs.rsc.org/en/Content/ArticleLanding/2023/EA/D3EA00013C">Impact
of COVID-19 lockdown on particulate matter oxidative potential at urban
background versus traffic sites</a>. <em>Environmental Science:
Atmospheres</em>.</p>
<p>Warburton, T., Grange, S. K., Hopkins, J. R., Andrews, S. J., Lewis,
A. C., Owen, N., Jordan, C., Adamson, G., and Xia, B. (2023). <a
href="http://dx.doi.org/10.1039/D2EM00444E">The impact of plug-in
fragrance diffusers on residential indoor VOC concentrations</a>.
<em>Environmental Science: Processes &amp; Impacts</em></p>
<p>Shaw, J. T., Allen, G., Topping, D., Grange, S. K., Barker, P., Pitt,
J., and Ward, R. S. (2022). <a
href="https://www.sciencedirect.com/science/article/pii/S1309104222002446">A
case study application of machine-learning for the detection of
greenhouse gas emission sources</a>. <em>Atmospheric Pollution
Research</em>, 13.10, p. 101563.</p>
<p>Lovrić, M., Antunović, M., Šunić, I., Vuković, M., Kecorius, S.,
Kröll, M., Bešlić, I., Godec, R., Pehnec, G., Geiger, B. C., Grange, S.,
and Šimić, I. (2022). <a
href="https://www.mdpi.com/1660-4601/19/11/6937">Machine Learning and
Meteorological Normalization for Assessment of Particulate Matter
Changes during the COVID-19 Lockdown in Zagreb, Croatia</a>.
<em>International Journal of Environmental Research and Public
Health</em> 19.11.</p>
<p>Grange, S. K., Uzu, G., Weber, S., Jaffrezo, J.-L., and Hueglin, C.
(2022). <a
href="https://acp.copernicus.org/articles/22/7029/2022">Linking
Switzerland’s PM<sub>10</sub> and PM<sub>2.5</sub> oxidative potential
(OP) with emission sources</a>. <em>Atmospheric Chemistry and
Physics</em> 22.10, pp. 7029–7050.</p>
<p>Brighty, A., Jacob, V., Uzu, G., Borlaza, L., Conil, S., Hueglin, C.,
Grange, S. K., Favez, O., Trébuchon, C., and Jaffrezo, J.-L. (2022). <a
href="https://acp.copernicus.org/articles/22/6021/2022">Cellulose in
atmospheric particulate matter at rural and urban sites across France
and Switzerland</a>. <em>Atmospheric Chemistry and Physics</em> 22.9,
pp. 6021–6043.</p>
<p>Grange, S. K., Fischer, A., Zellweger, C., Alastuey, A., Quero, X.,
Jaffrezo, J.-l., Weber, S., Uzu, G., and Hueglin, C. (2021). <a
href="https://www.sciencedirect.com/science/article/pii/S2590162121000459">Switzerland’s
PM<sub>10</sub> and PM<sub>2.5</sub> environmental increments show the
importance of non-exhaust emissions</a>. <em>Atmospheric Environment:
X</em> 12, p 100145.</p>
<p>Heeley-Hill, A. C., Grange, S. K., Ward, M. W., Lewis, A. C., Owen,
N., Jordan, C., Hodgson, G., and Adamson, G. (2021). <a
href="http://dx.doi.org/10.1039/D0EM00504E">Frequency of use of
household products containing VOCs and indoor atmospheric concentrations
in homes</a>. <em>Environmental Science: Processes &amp; Impacts</em> 23
(5), pp. 699–713.</p>
<p>Grange, S. K., Lee, J. D., Drysdale, W. S., Lewis, A. C., Hueglin,
C., Emmenegger, L., and Carslaw, D. C. (2021). <a
href="https://acp.copernicus.org/articles/21/4169/2021/">COVID-19
lockdowns highlight a risk of increasing ozone pollution in European
urban areas</a>. <em>Atmospheric Chemistry and Physics</em>. 21.5,
pp. 4169–4185.</p>
<p>Lovrić, M., Pavlović, K., Vuković, M., Grange, S. K., Haberl, M., and
Kern, R. (2020). <a
href="http://www.sciencedirect.com/science/article/pii/S0269749120365891">Understanding
the true effects of the COVID-19 lockdown on air pollution by means of
machine learning</a>. <em>Environmental Pollution</em>. p. 115900.</p>
<p>Boleti, E., Hueglin, C., Grange, S. K., Prévôt, A. S. H., and
Takahama, S. (2020). <a
href="https://www.atmos-chem-phys.net/20/9051/2020/">Temporal and
spatial analysis of ozone concentrations in Europe based on timescale
decomposition and a multi-clustering approach</a>. <em>Atmospheric
Chemistry and Physics</em> 20.14, pp. 9051–9066.</p>
<p>Grange, S. K., Farren, N. J., Vaughan, A. R., Davison, J., and
Carslaw, D. C. (2020). <a
href="https://doi.org/10.1021/acs.estlett.0c00188">Post-Dieselgate:
Evidence of NO<sub>x</sub> Emission Reductions Using On-Road Remote
Sensing</a>. <em>Environmental Science and Technology Letters</em>. 7.6,
pp. 382–387.</p>
<p>Grange, S. K., Lötscher, H., Fischer, A., Emmenegger, L., and
Hueglin, C. (2020). <a
href="https://www.atmos-meas-tech.net/13/1867/2020/">Evaluation of
equivalent black carbon source apportionment using observations from
Switzerland between 2008 and 2018</a>. <em>Atmospheric Measurement
Techniques</em> 13.4, pp. 1867–1885.</p>
<p>Grange, S. K., Farren, N. J., Vaughan, A. R., Rose, R. A., and
Carslaw, D. C. (2019). <a
href="https://pubs.acs.org/doi/abs/10.1021/acs.est.9b01024">Strong
temperature dependence for light-duty diesel vehicle NO<sub>x</sub>
emissions</a>. <em>Environmental Science &amp; Technology</em> 53.11,
pp. 6587–6596.</p>
<p>Grange, S. K. and Carslaw, D. C. (2019). <a
href="http://www.sciencedirect.com/science/article/pii/S004896971834244X">Using
meteorological normalisation to detect interventions in air quality time
series</a>. <em>Science of The Total Environment</em> 653,
pp. 578–588.</p>
<p>Hu, L., Keller, C. A., Long, M. S., Sherwen, T., Auer, B., Da Silva,
A., Nielsen, J. E., Pawson, S., Thompson, M. A., Trayanov, A. L.,
Travis, K. R., Grange, S. K., Evans, M. J., and Jacob, D. J. (2018). <a
href="https://www.geosci-model-dev.net/11/4603/2018/">Global simulation
of tropospheric chemistry at 12.5 km resolution: performance and
evaluation of the GEOS-Chem chemical module (v10-1) within the NASA GEOS
Earth system model (GEOS-5 ESM).</a> <em>Geoscientific Model
Development</em> 11.11, pp. 4603–4620.</p>
<p>Bigi, A., Mueller, M., Grange, S. K., Ghermandi, G., and Hueglin, C.
(2018). <a
href="https://www.atmos-meas-tech.net/11/3717/2018/">Performance of NO,
NO<sub>2</sub> low cost sensors and three calibration approaches within
a real world application.</a> <em>Atmospheric Measurement
Techniques</em> 11.6, pp. 3717–3735.</p>
<p>Grange, S. K., Carslaw, D. C., Lewis, A. C., Boleti, E., and Hueglin,
C. (2018). <a
href="https://www.atmos-chem-phys.net/18/6223/2018/">Random forest
meteorological normalisation models for Swiss PM<sub>10</sub> trend
analysis</a>. <em>Atmospheric Chemistry and Physics</em> 18.9,
pp. 6223–6239.</p>
<p>Grange, S. K., Lewis, A. C., Moller, S. J., and Carslaw, D. C.
(2017). <a href="https://doi.org/10.1038/s41561-017-0009-0">Lower
vehicular primary emissions of NO<sub>2</sub> in Europe than assumed in
policy projections</a>. <em>Nature Geoscience</em> 10.12,
pp. 914–918.</p>
<p>Weissert, L., Salmond, J. A., Miskell, G., Alavi-Shoshtari, M.,
Grange, S. K., Henshaw, G., and Williams, D. (2017). <a
href="http://www.sciencedirect.com/science/article/pii/S004896971632160X">Use
of a dense monitoring network of low-cost instruments to observe local
changes in the diurnal ozone cycles as marine air passes over a
geographically isolated urban centre</a>. <em>Science of the Total
Environment</em> 575, pp. 67–78.</p>
<p>Grange, S. K., Lewis, A. C., and Carslaw, D. C. (2016). <a
href="http://www.sciencedirect.com/science/article/pii/S1352231016307166">Source
apportionment advances using polar plots of bivariate correlation and
regression statistics</a>. <em>Atmospheric Environment</em> 145, pp
128–134</p>
<p>Miskell, G., Salmond, J., Alavi-Shoshtari, M., Bart, M., Ainslie, B.,
Grange, S., Mckendry, I., Henshaw, G., and Williams, D. E. (2015). <a
href="http://dx.doi.org/10.1021/acs.est.5b04421">Data verification tools
for minimizing management costs of dense air-quality monitoring
networks</a>. <em>Environmental Science &amp; Technology</em>. 50.2
pp. 835–846.</p>
<p>Bart, M., Williams, D., Ainslie, B., McKendry, I., Salmond, J.,
Grange, S., Alavi-Shoshtari, M., Steyn, D., and Henshaw, G. (2014). <a
href="http://dx.doi.org/10.1021/es404610t">High Density Ozone Monitoring
using Gas Sensitive Semi-Conductor Sensors in the Lower Fraser Valley
British Columbia.</a>, <em>Environmental Science &amp; Technology</em>
48.7, pp. 3970–3977</p>
<p>Grange, S. K., Dirks, K. N., Costello, S. B., and Salmond, J. A.
(2014). <a
href="http://www.sciencedirect.com/science/article/pii/S1361920914000996">Cycleways
and footpaths: What separation is needed for equivalent air pollution
dose between travel modes?</a> <em>Transportation Research Part D:
Transport and Environment</em> 32, pp. 111–119. issn: 1361–9209.</p>
<p>Grange, S. K., Salmond, J. A., Trompetter, W. J., Davy, P. K., and
Ancelet, T. (2013). <a
href="http://www.sciencedirect.com/science/article/pii/S1352231013000411">Effect
of atmospheric stability on the impact of domestic wood combustion to
air quality of a small urban township in winter.</a> <em>Atmospheric
Environment</em> 70, pp. 28–38. issn: 1352–2310</p>
<p>Trompetter, W. J., Grange, S. K., Davy, P. K., and Ancelet, T.
(2013). <a
href="http://www.sciencedirect.com/science/article/pii/S1352231013002902">Vertical
and temporal variations of black carbon in New Zealand urban areas
during winter.</a> <em>Atmospheric Environment</em> 75, pp. 179–187.
issn: 1352–2310</p>
</div>
<div id="conference-papers-presentations" class="section level2">
<h2>Conference papers &amp; presentations</h2>
<p>Grange, S. K., Rubli, P., Fischer, A., Hueglin, C., Ponomarev, N.,
Brunner, D., and Emmenegger, L. (2024). <a
href="https://drive.google.com/file/d/1LjuGZPcwwe_DfAIQDyUFJUTEqmVmoWDC/view?usp=drive_link">Design,
operation, and insights from Zürich city’s mid- and low-cost ICOS Cities
CO<sub>2</sub> sensor network.</a> ICOS Science Conference 2024,
September 10–12 2024, Versailles Palais des Congrès, France.</p>
<p>Aigner, P., Kühbacher, D., Wenzel, A., Schmitt, A., Böhm, F.,
Makowski, M., Kürzinger, K., Laurent, O., Rubli, P., Grange, S.,
Emmenegger, L., and Chen, J. (2024). ACROPOLIS. Autonomous and
Calibrated Roof-top Observatory for MetroPOLItan Sensing. ICOS Science
Conference 2024. Presented between September 10 and 12, 2024, Versailles
Palais des Congrès, France.</p>
<p>Kühbacher, D., Chen, J., Bärtschi, J., Khan, A. A., Wenzel, A.,
Aigner, P., Grange, S., Rubli, P., and Emmenegger, L. (2024). SCOUT:
Street-Level Carbon Observatory for Urban Terrain. ICOS Science
Conference 2024. Presented between September 10 and 12, 2024, Versailles
Palais des Congrès, France.</p>
<p>Bernet, L., Constantin, L., Emmenegger, L., Grange, S. K., Hüglin,
C., Ponomarev, N., Rubli, P., and Brunner, D. (2024). Building-resolved
CO<sub>2</sub> simulations to estimate emissions of the city of Zurich.
ICOS Science Conference 2024, September 10–12 2024, Versailles Palais
des Congrès, France.</p>
<p>Grange, S. K., Rubli, P., Fischer, A., Hüglin, C., and Emmenegger, L.
(2024c). <a
href="https://drive.google.com/file/d/1ybrRRMS3J4Wg-SMDd1DsV0pTYptJ14g7/view?usp=drive_link">Design,
operation, and insights from Zürich City’s mid- and low-cost CO2 sensor
network.</a> 14th International Conference on Air Quality, Helsinki,
Finland, 13–17 May, 2024.</p>
<p>Grange, S., Rubli, P., Fischer, A., Hueglin, C., Ponomarev, N.,
Brunner, D., and Emmenegger, L. (2024). <a
href="https://drive.google.com/file/d/1OYAB7ot6BW25zf6MRwji71z85tDICri_/view?usp=sharing">Design,
deployment, and insights from Zürich city’s mid- and low-cost
CO<sub>2</sub> sensor network.</a> EGU General Assembly 2024, Vienna,
Austria, 14–19 April 2024, EGU24-5221. Session AS3.38 – Science-based,
measurement-based greenhouse gas monitoring and emission estimates in
support of national, sub-national, city and industrial climate change
mitigation. Presented by Lukas Emmenegger.</p>
<p>Ponomarev, N., Steiner, M., Koene, E., Constantin, L., Rubli, P.,
Grange, S., Emmenegger, L., and Brunner, D. (2024). <a
href="https://meetingorganizer.copernicus.org/EGU24/EGU24-7420.html">Estimation
of CO<sub>2</sub> fluxes in the city of Zurich using the mesoscale
atmospheric transport and inversion model ICON-ART-CTDAS.</a> EGU
General Assembly 2024, Vienna, Austria, 14–19 April 2024, EGU24-7420.
Session AS3.36 – Urban Air Quality and Greenhouse Gases.</p>
<p>Rausch, J., Jaramillo-Vogel, D., Perseguers, S., Manousakas, M.,
Daellenbach, K. R., Grange, S. K., Hüglin, C., Alastuey, A., and
Schnidrig, N. (2024). <a
href="https://drive.google.com/file/d/1dvoLi-jQOYjFnZmi7PhsozQQgrzaWaik/view?usp=drive_link">Using
SEM/EDX morpho-chemical single particle analysis for elemental source
apportionment in PM<sub>10–2.5</sub> following a validation with
ICP-MS/-AES data.</a> The European Aerosol Conference 2024
(EAC2024).</p>
<p>Grange, S. K. (2024). <a
href="https://drive.google.com/file/d/1TUqrUjs9gt4SpwE1AxEPcJaEV1u8gZZQ/view?usp=drive_link">Robust
trend analysis and intervention detection of air pollutants with the use
of machine learning models.</a> Clean Air Society of Australia and New
Zealand (CASANZ) AIR TALKS 2024 – Modelling. Presented online on
February 29, 2024.</p>
<p>Christen, A., Emmenegger, L., Hammer, S., Kutsch, W., D’Onofrio, C.,
Chen, J., Eritt, M., Haeffelin, M., Järvi, L., Kljun, N., Lauvaux, T.,
Loubet, B., Mauder, M., Mensah, A. A., Papale, D., Rivier, L., Stagakis,
S., Vermeulen, A., Aigner, P., Bernasconi, D., Brunner, D., Buysse, P.,
Chariot, M., Fischer, A., Grange, S., Hashemi, J., Hilland, R., Holst,
C. C., Kasurinen, V., Kotthaus, S., Kühbacher, D., Kunz, A.-K., Lan, C.,
Laurent, O., Lopez, M., Luther, A., Makowski, M., Morrison, W.,
Nicolini, G., Ramonet, M., Rubli, P., Soininen, J., Vogt, R., Wenzel,
A., and Zeeman, M. (2023). <a
href="https://drive.google.com/file/d/1CkaWTmU8C5DcfLLiGial7W4avV-3nrsC/view?usp=share_link">ICOS
pilot observatories to monitor greenhouse gas emissions from three
different-size European cities.</a> EGU General Assembly 2023, Vienna,
Austria, 24–28 Apr 2023, EGU23-9884. Session AS2.4 – Air-Land
Interactions (General Session).</p>
<p>Grange, S., Rubli, P., Hueglin, C., Fischer, A., Baffelli, S.,
Brunner, D., and Emmenegger, L. (2023). <a
href="https://drive.google.com/file/d/1qyD3qOVCbyvRcyOy5diwTlOz7CE3XSND/view?usp=share_link">Design,
deployment, and exploitation of a high-density CO<sub>2</sub> sensor
network in Zürich City.</a> EGU General Assembly 2023, Vienna, Austria,
24–28 Apr 2023, EGU23-7172. Session AS3.15 – Urban Air Quality and
Greenhouse Gases.</p>
<p>Grange, S. . K., Baffelli, S., Hueglin, C., Rubli, P., Fischer, A.,
and Emmenegger, L. (2022). <a
href="https://drive.google.com/file/d/1dfxKZ3vpjJSFIfxKF--CHcs2S6BmG9Nt/view?usp=sharing">Operation
of the ICOS-Cities urban CO<sub>2</sub> sensor network in Zürich,
Switzerland</a>. ICOS Science Conference 2022. Presented on September
15, 2022, Utrecht, the Netherlands.</p>
<p>Grange, S. K., Uzu, G., Weber, S., Jaffrezo, J.-L., Alastuey, A.,
Querol, X., and Hueglin, C. (2022). <a
href="https://drive.google.com/file/d/1WPi7lHFV7J8_EZ28HWyfdFzPnEFGxEIz/view?usp=sharing">Characterisation
of Switzerland’s PM<sub>10</sub>, PM<sub>2.5</sub>, and associated
oxidative potential</a>. 13th International Conference on Air Quality -
Science and Application. Thessaloniki, Greece, 27 June–1 July, 2022.</p>
<p>Grange, S. . K., Lee, J. D., Drysdale, W. S., Lewis, A. C., Hueglin,
C., Emmenegger, L., and Carslaw, D. C. (2022). <a
href="https://drive.google.com/file/d/1RodR1JNja3VS3atDAL5rBZdAJoUronl-/view?usp=sharing">European
urban air quality and COVID-19 lockdowns</a>. 13th International
Conference on Air Quality - Science and Application. Thessaloniki,
Greece, 27 June–1 July, 2022.</p>
<p>Grange, S. K. (2021). <a
href="https://drive.google.com/file/d/13HcMhgsldrScQUkfW6MLQ76Adnx7vXgR/view?usp=sharing">COVID-19
lockdowns highlight a risk of increasing ozone pollution in European
urban areas</a>. Scottish Air Quality Database Seminar, 2021. Presented
online on March 17, 2021.</p>
<p>Grange, S. K. (2021). <a
href="https://drive.google.com/file/d/1edqgKOKhpwRfg25qjDDYvBK8j-tJ2Bzh/view?usp=sharing">European
gaseous air pollutants’ responses to COVID-19 restrictions</a>. ACTRIS
NO<sub>x</sub>/VOC QA workshop – April 21, 2021.</p>
<p>Grange, S. K. (2021). <a
href="https://drive.google.com/file/d/1HDl6Z2cVoVDi26FHiS8xAAlBcCDw_Rcc/view">The
impact of COVID-19 lockdowns on air quality in European urban areas</a>.
Data Science of the Natural Environment (DSNE; Lancaster University)
seminar. Presented online on May 20, 2021.</p>
<p>Grange, S. K., Lee, J. D., Drysdale, W. S., Lewis, A. C., Hueglin,
C., Emmenegger, L., and Carslaw, D. C. (2021). <a
href="https://drive.google.com/file/d/1tXzuVTdRQrZeMncdjFSp2aku0UTYRHIL/view?usp=sharing">The
impact of COVID-19 lockdowns on air quality in European urban areas</a>.
Royal Meteorological Society’s Virtual Event – Air Quality and Climate
Impacts of COVID-19 Lockdowns. Presented online on November 18,
2021.</p>
<p>Grange, S. K., Lee, J. D., Drysdale, W. S., Lewis, A. C., Hueglin,
C., Emmenegger, L., Reimann, S., and Carslaw, D. C. (2021). <a
href="https://drive.google.com/file/d/1WLuXYxDqyHW7i-FJuEdwMGjrFwhT4ZMT/view">The
impact and implications of COVID-19 mobility restrictions on European
air quality</a>. ACTRIS Week 2021 – Plenary Scientific Session.
Presented online on October 28, 2021.</p>
<p>Grange, S. K. (2021). <a
href="https://drive.google.com/file/d/18-ABB7IQxyv1OtqwX3zhcY5vJdZP-En9/view?usp=sharing">Exploring
Switzerland’s PM<sub>10</sub>, PM<sub>2.5</sub>, and associated
oxidative potential (OP)</a>. Swiss Aerosol Group (SAG) Meeting,
November 2, 2021, Bern, Switzerland.</p>
<p>Grange, S. K., Alastuey, A., Querol, X., Uzu, G., Jaffrezo, J.-L.,
and Hueglin, C. (2020). <a
href="https://drive.google.com/file/d/1KXbfaKDHwV_Y9k5m4PWVAo-1mZhGNy9T/view?usp=sharing">Characterisation
of Switzerland’s PM<sub>10</sub> and PM<sub>2.5</sub> between 1998 and
2019.</a> European Aerosol Conference (EAC 2020), held online between
August 31 and September 4, 2020, planned to be held in Aachen, Germany.
Session: AAS 1: Atmospheric new particle formation/Aerosols in earth
system models; ID: 202.</p>
<p>Grange, S. K., Lötscher, H., Fischer, A., Emmenegger, L., and
Hueglin, C. (2020). <a
href="https://drive.google.com/open?id=1mAZhHGp2ecWIFxv5rfvnAiaQW2OzJo_E">Exploring
equivalent black carbon (EBC) concentrations in Switzerland with the
aethalometer model.</a> Presented online for the 12th International
Conference on Air Quality – Science and Application (planned to be held
in Thessaloniki, Greece, 9-13 March, 2020).</p>
<p>Grange, S. K., Farren, N. J., Vaughan, A. R., Rose, R. A., and
Carslaw, D. C. (2019). <a
href="https://drive.google.com/open?id=1NQKZKBJ7cExlRXhZMqn-HrVwoHWlFatU">Strong
ambient temperature dependence on NO<sub>x</sub> emissions for
light-duty diesel vehicles</a>. Presented at American Geophysical Union
(AGU) 2019 Fall Meeting, San Francisco, California, 9–13 December.
Abstract number 488377 and final paper number A21W-2634.</p>
<p>Grange, S. K. (2018) <a
href="https://drive.google.com/open?id=1TXXuOmrBk_E-M3qjpCqoJzg4mUVcqRcH">Extracting
additional information from routine air quality data</a>. Presented on
2018-10-03 for the Kathleen Mary Stott (KMS) Prize winners’ seminar.</p>
<p>Grange, S. K., Carslaw, D. C., and Hueglin, C. (2018). <a
href="https://drive.google.com/open?id=1NSmRE9JA4kgSI5RIpjYdIRN2953Bv2sS">PM<sub>10</sub>
trends in Switzerland using random forest models</a>. 11th International
Conference on Air Quality - Science and Application. Air Quality 2018,
Barcelona, 12-16 March 2018.</p>
<p>Grange, S. K. and Carslaw, D. C. (2017). <a
href="https://drive.google.com/open?id=1LGoDGzafkG4vBqfwCEWfAWRNBR__xpqM">Comprehensive
analysis of European vehicular primary NO<sub>2</sub> trends</a>. 22nd
International Transport and Air Pollution Conference, 15-16 November
2017, Zürich, Switzerland.</p>
<p>Miskell, G., Salmond, J., Grange, S., Weissert, L., Henshaw, G., and
Williams, D. (2017). <a
href="http://www.mdpi.com/2504-3900/1/4/400">Reliable Long-Term Data
from Low-Cost Gas Sensor Networks in the Environment</a>. Proceedings
for Eurosensors 2017, Paris September 3-6.</p>
<p>Miskell, G., Salmond, J., Alavi-Shoshtari, M., Bart, M., Ainslie, B.,
Grange, S., McKendry, I., Henshaw, G., and Williams, D. (2016). <a
href="https://drive.google.com/open?id=0B7lRD1eNlhErRFpLMDRSdS1XNms">Application
of Automated Statistics for Managing Low Cost Air Quality Networks.</a>
Air Quality Measurement Methods and Technology. March 15-17, 2016.
Chapel Hill, North Carolina. Extended Abstract #29.</p>
<p>Grange, S. K., Dirks, K. N., Costello, S. B., Bolam, L., Brandon, R.
A., and Salmond, J. A. (2013). <a
href="https://drive.google.com/file/d/0B7lRD1eNlhErbk4zTTd4cGg2a2M/edit?usp=sharing">Carbon
monoxide exposure and dose for commuters in a roadside environment.</a>
The Meteorological Society of New Zealand Annual Conference, Palmerston
North, New Zealand on 19-22 November, 2013.</p>
<p>Ancelet, T., Davy, P., Trompetter, B., Markwitz, A., Grange, S., and
Weatherburn, D. (2012). <a
href="https://drive.google.com/file/d/0B7lRD1eNlhErcWRFdllwOWpIVzg/edit?usp=sharing">Air
Particulate Matter Sources on an Hourly Time-Scale-Alexandra and
Nelson.</a> National Air Quality Working Group May 25, 2012.</p>
<p>Grange, S. K. (2012). <a
href="https://drive.google.com/file/d/0B7lRD1eNlhErQ1NrOU42VnR1VDA/edit?usp=sharing">Winter-time
air quality consequences of domestic woodburning in a small urban
area.</a> Presented on February 10, 2012 at GNS Science, Gracefield, New
Zealand.</p>
<p>Grange, S. K., Salmond, J., Trompetter, B., Davy, P., and Ancelet, T.
(2012). <a
href="https://drive.google.com/file/d/0B7lRD1eNlhErWTZiN013WTJmZkk/edit?usp=sharing">Air
quality consequences of domestic wood burning in Nelson during the
winter of 2011.</a> The New Zealand National Air Quality Working Group,
May 25, 2012.</p>
<p>Grange, S. K., Trompetter, W. J., Davy, P. K., Ancelet, T., and
Salmond, J. A. (2011). <a
href="https://drive.google.com/file/d/0B7lRD1eNlhErNjY0WjJzTVc1bUk/edit?usp=sharing">Horizontal
and vertical variation of pollutants in Nelson South during the winter
of 2011.</a> The Meteorological Society of New Zealand Annual
Conference, Nelson, New Zealand, November 14–15, 2011. <em>Recipient of
best student presentation award for 2011</em>.</p>
<p>Trompetter, W. J., Grange, S. K., Davy, P., Ancelet, T., and
Markwitz, A. (2011). <a
href="https://drive.google.com/file/d/0B7lRD1eNlhErWGdlcmtwMjdGU3M/edit?usp=sharing">Black
carbon transect profiles during the 2010 winter sampling campaign in
Masterton, New Zealand.</a> 20th International Clean Air and Environment
Conference, Clean Air Society of Australia and New Zealand (CASANZ), 31
July–2 August, Auckland, New Zealand.</p>
</div>
<div id="software" class="section level2">
<h2>Software</h2>
<div id="r-packages" class="section level3">
<h3>R packages</h3>
<div id="published-on-cran" class="section level4">
<h4>Published on CRAN</h4>
<p><a
href="https://cran.r-project.org/web/packages/rmweather/index.html">rmweather</a>:
Tools to Conduct Meteorological Normalisation on Air Quality Data.</p>
<p><a
href="https://cran.r-project.org/web/packages/saqgetr/index.html">saqgetr</a>:
Import Air Quality Monitoring Data in a Fast and Easy Way.</p>
</div>
<div id="other" class="section level4">
<h4>Other</h4>
<p><a href="https://github.com/skgrange/threadr">threadr</a>: Tools to
Thread Pieces Of Data Analysis Together.</p>
<p><a href="https://github.com/skgrange/gissr">gissr</a>: A collection
of spatial functions to make R a more effective GIS. Retired in 2024 and
superseded by <a
href="https://github.com/skgrange/sspatialr">sspatialr</a>.</p>
<p><a href="https://github.com/skgrange/databaser">databaser</a>: Tools
to Keep Database Interaction Easy and Consistent.</p>
<p><a href="https://github.com/skgrange/smonitor">smonitor</a>: A
Framework and a Collection of Functions to Allow for Maintenance of Air
Quality Monitoring Data.</p>
<p><a
href="https://github.com/skgrange/envirologgerr">envirologgerr</a>: An R
interface to the Envirologger API.</p>
<p><a href="https://github.com/wacl-york/waclr">waclr</a>: A Collection
of Tools to Help at the Wolfson Atmospheric Chemistry Laboratories
(WACL).</p>
<p><a
href="https://github.com/skgrange/normalweatherr">normalweatherr</a>: An
R package to conduct meteorological/weather normalisation on air quality
data (deprecated).</p>
<p><a href="https://github.com/skgrange/systemr">systemr</a>: Tools to
Return Structured System Calls.</p>
<p><a href="https://github.com/skgrange/emitr">emitr</a>: Tools to Help
With On-Road Vehicle Emission Data Analysis.</p>
<p><a href="https://github.com/skgrange/hyr">hyr</a>: Command the Hybrid
Single Particle Lagrangian Integrated Trajectory Model (HYSPLIT) with
R.</p>
<p><a href="https://github.com/skgrange/pmfr">pmfr</a>: Interact With
Data Generated by the EPA PMF Tool.</p>
<p><a href="https://github.com/skgrange/isorropiar">isorropiar</a>:
Command the aerosol thermodynamical equilibrium ISORROPIA II model with
R.</p>
<p><a href="https://github.com/skgrange/sspatialr">sspatialr</a>: A
collection of spatial functions to make R a more effective GIS based on
the sf and terra packages.</p>
</div>
</div>
</div>
<div id="other-works" class="section level2">
<h2>Other works</h2>
<div id="technical-notes-and-reports" class="section level3">
<h3>Technical notes and reports</h3>
<p>Hüglin, C. and Grange, S. K. (2021). <a
href="https://www.bafu.admin.ch/dam/bafu/de/dokumente/luft/externe-studien-berichte/chemical-characterisation-and-source-identification-of-pm-in-switzerland.pdf.download.pdf/Characterisation-source-identification-PM.pdf">Chemical
characterisation and source identification of PM<sub>10</sub> and
PM<sub>2.5</sub> in Switzerland</a>. Project report. Empa, Swiss Federal
Laboratories for Materials Science and Technology. Commissioned by the
Federal Office for the Environment (FOEN).</p>
<p>Grange, S. K., &amp; Hüglin, C. (2020). <a
href="https://www.bafu.admin.ch/dam/bafu/en/dokumente/luft/externe-studien-berichte/swiss_visibility_note.pdf.download.pdf/swiss_visibility_note.pdf">Horizontal
visibility across Switzerland between 1980 and 2018.</a> A report
prepared by Empa, Swiss Federal Laboratories for Materials Science and
Technology, Air Pollution/Environmental Technology Laboratory
commissioned by the Federal Office for the Environment (FOEN).</p>
<p>Grange, S. K. (2017). <a
href="https://drive.google.com/open?id=1Z-Lxz8LccK9ENCLwS0c2Y0EUZ5bCq2lW">Technical
note: smonitor Europe.</a></p>
<p>Grange, S. and Xie, S. (2015). <a
href="http://www.knowledgeauckland.org.nz/assets/publications/TR2015-004-Auckland-2011-industrial-air-emission-inventory.pdf">Auckland
industrial air emission inventory 2011. Auckland Council technical
report, TR2015/004.</a></p>
<p>Grange, S. K. (2014). <a
href="https://drive.google.com/open?id=0B7lRD1eNlhErbWNQeTVPTy1pRWc">Technical
note: Averaging wind speeds and directions</a> (or <a
href="http://doi.org/10.13140/RG.2.1.3349.2006">DOI</a>)</p>
</div>
<div id="theses" class="section level3">
<h3>Theses</h3>
<p>Grange, S. K. (2019). <a
href="https://drive.google.com/open?id=1FQ3bjNRWO4vB_jd_9W8O7gWQwaqiwt8B"><em>Development
of Data Analytic Approaches for Air Quality Data</em></a>. PhD thesis.
Chemistry, The University of York.</p>
<p>Grange, S. K. (2011). <a
href="https://drive.google.com/file/d/0B7lRD1eNlhErVnlaQUsxSkgyaVk/edit?usp=sharing"><em>Spatio-temporal
variation of atmospheric pollutants during the winter of 2011 in Nelson
South.</em></a> MSc thesis. School of Environment, The University of
Auckland.</p>
</div>
<div id="posters" class="section level3">
<h3>Posters</h3>
<p>Emmenegger, L., Bernet, L., Brunner, D., Christen, A., D’Onofrio, C.,
Fischer, A., Hammer, S., Grange, S., Hilland, R., Järvi, L., Kunz,
A.-K., Kutsch, W., Kljun, N., Mauder, M., Mensah, A. A., Rubli, P.,
Stagakis, S., Vermeulen, A., Vogt, R., and the ICOS Cities team (2024).
<a
href="https://drive.google.com/file/d/1IrwZN8twPxIBPz5vG0fm6szGOpQW9uBd/view?usp=sharing">ICOS
Cities: Observation-based greenhouse gas emissions monitoring: first
results from the Zürich pilot city.</a> 14th International Conference on
Air Quality, Helsinki, Finland, 13–17 May, 2024.</p>
<p>Grange, S. K., Farren, N. J., Vaughan, A. R., Rose, R. A., and
Carslaw, D. C. (2019). <a
href="https://drive.google.com/open?id=1NQKZKBJ7cExlRXhZMqn-HrVwoHWlFatU">Strong
ambient temperature dependence on NO<sub>x</sub> emissions for
light-duty diesel vehicles.</a> Presented at American Geophysical Union
(AGU) 2019 Fall Meeting, San Francisco, California, 9–13 December.
Abstract number 488377 and final paper number A21W-2634.</p>
<p>Grange, S. K. and Carslaw, D. C. (2019). <a
href="https://drive.google.com/open?id=1wfqJhwEgcHW9nWkhMByjkeTDhEnQTLUd"><em>Using
meteorological normalisation to detect changes in NO<sub>2</sub>
emissions at London Marylebone Road.</em></a> Poster presented at the
Atmospheric Science Conference 2019, Birmingham, United Kingdom,
2019-07-03.</p>
<p>Grange, S. K. (2018). <a
href="https://drive.google.com/open?id=1WtdfCmwPATRHeftg2qUSTeHg2D9s2Y5K"><em>Outlook
for European roadside NO<sub>2</sub> better than thought.</em></a> Third
year poster competition sponsored by Johnson Matthey.</p>
</div>
</div>
</div>




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