Your search keyword '"A. Féron"' showing total 1,397 results

1. Nitrate radical generation via continuous generation of dinitrogen pentoxide in a laminar flow reactor coupled to an oxidation flow reactor

Author

A. T. Lambe, E. C. Wood, J. E. Krechmer, F. Majluf, L. R. Williams, P. L. Croteau, M. Cirtog, A. Féron, J.-E. Petit, A. Albinet, J. L. Jimenez, and Z. Peng

Subjects

Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787

Abstract

Oxidation flow reactors (OFRs) are an emerging tool for studying the formation and oxidative aging of organic aerosols and other applications. The majority of OFR studies to date have involved the generation of the hydroxyl radical (OH) to mimic daytime oxidative aging processes. In contrast, the use of the nitrate radical (NO3) in modern OFRs to mimic nighttime oxidative aging processes has been limited due to the complexity of conventional techniques that are used to generate NO3. Here, we present a new method that uses a laminar flow reactor (LFR) to continuously generate dinitrogen pentoxide (N2O5) in the gas phase at room temperature from the NO2 + O3 and NO2 + NO3 reactions. The N2O5 is then injected into a dark Potential Aerosol Mass (PAM) OFR and decomposes to generate NO3; hereafter, this method is referred to as “OFR-iN2O5” (where “i” stands for “injected”). To assess the applicability of the OFR-iN2O5 method towards different chemical systems, we present experimental and model characterization of the integrated NO3 exposure, NO3:O3, NO2:NO3, and NO2:O2 as a function of LFR and OFR conditions. These parameters were used to investigate the fate of representative organic peroxy radicals (RO2) and aromatic alkyl radicals generated from volatile organic compound (VOC) + NO3 reactions, and VOCs that are reactive towards both O3 and NO3. Finally, we demonstrate the OFR-iN2O5 method by generating and characterizing secondary organic aerosol from the β-pinene + NO3 reaction.

Published

2020

2. Aerosol composition and the contribution of SOA formation over Mediterranean forests

Author

E. Freney, K. Sellegri, M. Chrit, K. Adachi, J. Brito, A. Waked, A. Borbon, A. Colomb, R. Dupuy, J.-M. Pichon, L. Bouvier, C. Delon, C. Jambert, P. Durand, T. Bourianne, C. Gaimoz, S. Triquet, A. Féron, M. Beekmann, F. Dulac, and K. Sartelet

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

As part of the Chemistry-Aerosol Mediterranean Experiment (ChArMEx), a series of aerosol and gas-phase measurements were deployed aboard the SAFIRE ATR42 research aircraft in summer 2014. The present study focuses on the four flights performed in late June early July over two forested regions in the south of France. We combine in situ observations and model simulations to aid in the understanding of secondary organic aerosol (SOA) formation over these forested areas in the Mediterranean and to highlight the role of different gas-phase precursors. The non-refractory particulate species measured by a compact aerosol time-of-flight mass spectrometer (cToF-AMS) were dominated by organics (60 to 72 %) followed by a combined contribution of 25 % by ammonia and sulfate aerosols. The contribution from nitrate and black carbon (BC) particles was less than 5 % of the total PM1 mass concentration. Measurements of non-refractory species from off-line transmission electron microscopy (TEM) showed that particles have different mixing states and that large fractions (35 %) of the measured particles were organic aerosol containing C, O, and S but without inclusions of crystalline sulfate particles. The organic aerosol measured using the cToF-AMS contained only evidence of oxidized organic aerosol (OOA), without a contribution of fresh primary organic aerosol. Positive matrix factorization (PMF) on the combined organic–inorganic matrices separated the oxidized organic aerosol into a more-oxidized organic aerosol (MOOA), and a less-oxidized organic aerosol (LOOA). The MOOA component is associated with inorganic species and had higher contributions of m∕z 44 than the LOOA factor. The LOOA factor is not associated with inorganic species and correlates well with biogenic volatile organic species measured with a proton-transfer-reaction mass spectrometer, such as isoprene and its oxidation products (methyl vinyl ketone, MVK; methacroleine, MACR; and isoprene hydroxyhydroperoxides, ISOPOOH). Despite a significantly high mixing ratio of isoprene (0.4 to 1.2 ppbV) and its oxidation products (0.2 and 0.8 ppbV), the contribution of specific signatures for isoprene epoxydiols SOA (IEPOX-SOA) within the aerosol organic mass spectrum (m∕z 53 and m∕z 82) were very weak, suggesting that the presence of isoprene-derived SOA was either too low to be detected by the cToF-AMS, or that SOA was not formed through IEPOX. This was corroborated through simulations performed with the Polyphemus model showing that although 60 to 80 % of SOA originated from biogenic precursors, only about 15 to 32 % was related to isoprene (non-IEPOX) SOA; the remainder was 10 % sesquiterpene SOA and 35 to 40 % monoterpene SOA. The model results show that despite the zone of sampling being far from industrial or urban sources, a total contribution of 20 to 34 % of the SOA was attributed to purely anthropogenic precursors (aromatics and intermediate or semi-volatile compounds). The measurements obtained during this study allow us to evaluate how biogenic emissions contribute to increasing SOA concentrations over Mediterranean forested areas. Directly comparing these measurements with the Polyphemus model provides insight into the SOA formation pathways that are prevailing in these forested areas as well as processes that need to be implemented in future simulations.

Published

2018

3. Chemical characterization and source apportionment of submicron aerosols measured in Senegal during the 2015 SHADOW campaign

Author

L.-H. Rivellini, I. Chiapello, E. Tison, M. Fourmentin, A. Féron, A. Diallo, T. N'Diaye, P. Goloub, F. Canonaco, A. S. H. Prévôt, and V. Riffault

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

The present study offers the first chemical characterization of the submicron (PM1) fraction in western Africa at a high time resolution, thanks to collocated measurements of nonrefractory (NR) species with an Aerosol Chemical Speciation Monitor (ACSM), black carbon and iron concentrations derived from absorption coefficient measurements with a 7-wavelength Aethalometer, and total PM1 determined by a TEOM-FDMS (tapered element oscillating microbalance–filtered dynamic measurement system) for mass closure. The field campaign was carried out over 3 months (March to June 2015) as part of the SHADOW (SaHAran Dust Over West Africa) project at a coastal site located in the outskirts of the city of Mbour, Senegal. With an averaged mass concentration of 5.4 µg m−3, levels of NR PM1 in Mbour were 3 to 10 times lower than those generally measured in urban and suburban polluted environments. Nonetheless the first half of the observation period was marked by intense but short pollution events (NR PM1 concentrations higher than 15 µg m−3), sea breeze phenomena and Saharan desert dust outbreaks (PM10 up to 900 µg m−3). During the second half of the campaign, the sampling site was mainly under the influence of marine air masses. The air masses on days under continental and sea breeze influences were dominated by organics (36–40 %), whereas sulfate particles were predominant (40 %) for days under oceanic influence. Overall, measurements showed that about three-quarters of the total PM1 were explained by NR PM1, BC (black carbon) and Fe (a proxy for dust) concentrations, leaving approximately one-quarter for other refractory species. A mean value of 4.6 % for the Fe ∕ PM1 ratio was obtained. Source apportionment of the organic fraction, using positive matrix factorization (PMF), highlighted the impact of local combustion sources, such as traffic and residential activities, which contribute on average to 52 % of the total organic fraction. A new organic aerosol (OA) source, representing on average 3 % of the total OA fraction, showed similar variation to nonrefractory particulate chloride. Its rose plot and daily pattern pointed to local combustion processes, i.e., two open waste-burning areas located about 6 and 11 km away from the receptor site and to a lesser extent a traditional fish-smoking location. The remaining fraction was identified as oxygenated organic aerosols (OOA), a factor that prevailed regardless of the day type (45 %) and was representative of regional (approximately three-quarters) but also local (approximately one-quarter) sources due to enhanced photochemical processes.

Published

2017

4. Organic carbon at a remote site of the western Mediterranean Basin: sources and chemistry during the ChArMEx SOP2 field experiment

Author

V. Michoud, J. Sciare, S. Sauvage, S. Dusanter, T. Léonardis, V. Gros, C. Kalogridis, N. Zannoni, A. Féron, J.-E. Petit, V. Crenn, D. Baisnée, R. Sarda-Estève, N. Bonnaire, N. Marchand, H. L. DeWitt, J. Pey, A. Colomb, F. Gheusi, S. Szidat, I. Stavroulas, A. Borbon, and N. Locoge

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

The ChArMEx (Chemistry and Aerosols Mediterranean Experiments) SOP2 (special observation period 2) field campaign took place from 15 July to 5 August 2013 in the western Mediterranean Basin at Ersa, a remote site in Cape Corse. During the campaign more than 80 volatile organic compounds (VOCs), including oxygenated species, were measured by different online and offline techniques. At the same time, an exhaustive description of the chemical composition of fine aerosols was performed with an aerosol chemical speciation monitor (ACSM). Low levels of anthropogenic VOCs (typically tens to hundreds of parts per trillion for individual species) and black carbon (0.1–0.9 µg m−3) were observed, while significant levels of biogenic species (peaking at the ppb level) were measured. Furthermore, secondary oxygenated VOCs (OVOCs) largely dominated the VOC speciation during the campaign, while organic matter (OM) dominated the aerosol chemical composition, representing 55 % of the total mass of non-refractory PM1 on average (average of 3.74 ± 1.80 µg m−3), followed by sulfate (27 %, 1.83 ± 1.06 µg m−3), ammonium (13 %, 0.90 ± 0.55 µg m−3) and nitrate (5 %, 0.31 ± 0.18 µg m−3). Positive matrix factorization (PMF) and concentration field (CF) analyses were performed on a database containing 42 VOCs (or grouped VOCs), including OVOCs, to identify the covariation factors of compounds that are representative of primary emissions or chemical transformation processes. A six-factor solution was found for the PMF analysis, including a primary and secondary biogenic factor correlated with temperature and exhibiting a clear diurnal profile. In addition, three anthropogenic factors characterized by compounds with various lifetimes and/or sources have been identified (long-lived, medium-lived and short-lived anthropogenic factors). The anthropogenic nature of these factors was confirmed by the CF analysis, which identified potential source areas known for intense anthropogenic emissions (north of Italy and southeast of France). Finally, a factor characterized by OVOCs of both biogenic and anthropogenic origin was found. This factor was well correlated with submicron organic aerosol (OA) measured by an aerosol chemical speciation monitor (ACSM), highlighting the close link between OVOCs and organic aerosols; the latter is mainly associated (96 %) with the secondary OA fraction. The source apportionment of OA measured by ACSM led to a three-factor solution identified as hydrogen-like OA (HOA), semi-volatile oxygenated OA (SV-OOA) and low volatility OOA (LV-OOA) for averaged mass concentrations of 0.13, 1.59 and 1.92 µg m−3, respectively. A combined analysis of gaseous PMF factors with inorganic and organic fractions of aerosols helped distinguish between anthropogenic continental and biogenic influences on the aerosol- and gas-phase compositions.

Published

2017

5. Overview of the Chemistry-Aerosol Mediterranean Experiment/Aerosol Direct Radiative Forcing on the Mediterranean Climate (ChArMEx/ADRIMED) summer 2013 campaign

Author

M. Mallet, F. Dulac, P. Formenti, P. Nabat, J. Sciare, G. Roberts, J. Pelon, G. Ancellet, D. Tanré, F. Parol, C. Denjean, G. Brogniez, A. di Sarra, L. Alados-Arboledas, J. Arndt, F. Auriol, L. Blarel, T. Bourrianne, P. Chazette, S. Chevaillier, M. Claeys, B. D'Anna, Y. Derimian, K. Desboeufs, T. Di Iorio, J.-F. Doussin, P. Durand, A. Féron, E. Freney, C. Gaimoz, P. Goloub, J. L. Gómez-Amo, M. J. Granados-Muñoz, N. Grand, E. Hamonou, I. Jankowiak, M. Jeannot, J.-F. Léon, M. Maillé, S. Mailler, D. Meloni, L. Menut, G. Momboisse, J. Nicolas, T. Podvin, V. Pont, G. Rea, J.-B. Renard, L. Roblou, K. Schepanski, A. Schwarzenboeck, K. Sellegri, M. Sicard, F. Solmon, S. Somot, B. Torres, J. Totems, S. Triquet, N. Verdier, C. Verwaerde, F. Waquet, J. Wenger, and P. Zapf

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

The Chemistry-Aerosol Mediterranean Experiment (ChArMEx; http://charmex.lsce.ipsl.fr) is a collaborative research program federating international activities to investigate Mediterranean regional chemistry-climate interactions. A special observing period (SOP-1a) including intensive airborne measurements was performed in the framework of the Aerosol Direct Radiative Impact on the regional climate in the MEDiterranean region (ADRIMED) project during the Mediterranean dry season over the western and central Mediterranean basins, with a focus on aerosol-radiation measurements and their modeling. The SOP-1a took place from 11 June to 5 July 2013. Airborne measurements were made by both the ATR-42 and F-20 French research aircraft operated from Sardinia (Italy) and instrumented for in situ and remote-sensing measurements, respectively, and by sounding and drifting balloons, launched in Minorca. The experimental setup also involved several ground-based measurement sites on islands including two ground-based reference stations in Corsica and Lampedusa and secondary monitoring sites in Minorca and Sicily. Additional measurements including lidar profiling were also performed on alert during aircraft operations at EARLINET/ACTRIS stations at Granada and Barcelona in Spain, and in southern Italy. Remote-sensing aerosol products from satellites (MSG/SEVIRI, MODIS) and from the AERONET/PHOTONS network were also used. Dedicated meso-scale and regional modeling experiments were performed in relation to this observational effort. We provide here an overview of the different surface and aircraft observations deployed during the ChArMEx/ADRIMED period and of associated modeling studies together with an analysis of the synoptic conditions that determined the aerosol emission and transport. Meteorological conditions observed during this campaign (moderate temperatures and southern flows) were not favorable to producing high levels of atmospheric pollutants or intense biomass burning events in the region. However, numerous mineral dust plumes were observed during the campaign, with the main sources located in Morocco, Algeria and Tunisia, leading to aerosol optical depth (AOD) values ranging between 0.2 and 0.6 (at 440 nm) over the western and central Mediterranean basins. One important point of this experiment concerns the direct observations of aerosol extinction onboard the ATR-42, using the CAPS system, showing local maxima reaching up to 150 M m−1 within the dust plume. Non-negligible aerosol extinction (about 50 M m−1) has also been observed within the marine boundary layer (MBL). By combining the ATR-42 extinction coefficient observations with absorption and scattering measurements, we performed a complete optical closure revealing excellent agreement with estimated optical properties. This additional information on extinction properties has allowed calculation of the dust single scattering albedo (SSA) with a high level of confidence over the western Mediterranean. Our results show a moderate variability from 0.90 to 1.00 (at 530 nm) for all flights studied compared to that reported in the literature on this optical parameter. Our results underline also a relatively low difference in SSA with values derived near dust sources. In parallel, active remote-sensing observations from the surface and onboard the F-20 aircraft suggest a complex vertical structure of particles and distinct aerosol layers with sea spray and pollution located within the MBL, and mineral dust and/or aged North American smoke particles located above (up to 6–7 km in altitude). Aircraft and balloon-borne observations allow one to investigate the vertical structure of the aerosol size distribution showing particles characterized by a large size (> 10 µm in diameter) within dust plumes. In most of cases, a coarse mode characterized by an effective diameter ranging between 5 and 10 µm, has been detected above the MBL. In terms of shortwave (SW) direct forcing, in situ surface and aircraft observations have been merged and used as inputs in 1-D radiative transfer codes for calculating the aerosol direct radiative forcing (DRF). Results show significant surface SW instantaneous forcing (up to −90 W m−2 at noon). Aircraft observations provide also original estimates of the vertical structure of SW and LW radiative heating revealing significant instantaneous values of about 5° K per day in the solar spectrum (for a solar angle of 30°) within the dust layer. Associated 3-D modeling studies from regional climate (RCM) and chemistry transport (CTM) models indicate a relatively good agreement for simulated AOD compared with observations from the AERONET/PHOTONS network and satellite data, especially for long-range dust transport. Calculations of the 3-D SW (clear-sky) surface DRF indicate an average of about −10 to −20 W m−2 (for the whole period) over the Mediterranean Sea together with maxima (−50 W m−2) over northern Africa. The top of the atmosphere (TOA) DRF is shown to be highly variable within the domain, due to moderate absorbing properties of dust and changes in the surface albedo. Indeed, 3-D simulations indicate negative forcing over the Mediterranean Sea and Europe and positive forcing over northern Africa. Finally, a multi-year simulation, performed for the 2003 to 2009 period and including an ocean–atmosphere (O–A) coupling, underlines the impact of the aerosol direct radiative forcing on the sea surface temperature, O–A fluxes and the hydrological cycle over the Mediterranean.

Published

2016

6. Sources and geographical origins of fine aerosols in Paris (France)

Author

M. Bressi, J. Sciare, V. Ghersi, N. Mihalopoulos, J.-E. Petit, J. B. Nicolas, S. Moukhtar, A. Rosso, A. Féron, N. Bonnaire, E. Poulakis, and C. Theodosi

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

The present study aims at identifying and apportioning fine aerosols to their major sources in Paris (France) – the second most populated "larger urban zone" in Europe – and determining their geographical origins. It is based on the daily chemical composition of PM2.5 examined over 1 year at an urban background site of Paris (Bressi et al., 2013). Positive matrix factorization (EPA PMF3.0) was used to identify and apportion fine aerosols to their sources; bootstrapping was performed to determine the adequate number of PMF factors, and statistics (root mean square error, coefficient of determination, etc.) were examined to better model PM2.5 mass and chemical components. Potential source contribution function (PSCF) and conditional probability function (CPF) allowed the geographical origins of the sources to be assessed; special attention was paid to implement suitable weighting functions. Seven factors, namely ammonium sulfate (A.S.)-rich factor, ammonium nitrate (A.N.)-rich factor, heavy oil combustion, road traffic, biomass burning, marine aerosols and metal industry, were identified; a detailed discussion of their chemical characteristics is reported. They contribute 27, 24, 17, 14, 12, 6 and 1% of PM2.5 mass (14.7 μg m−3) respectively on the annual average; their seasonal variability is discussed. The A.S.- and A.N.-rich factors have undergone mid- or long-range transport from continental Europe; heavy oil combustion mainly stems from northern France and the English Channel, whereas road traffic and biomass burning are primarily locally emitted. Therefore, on average more than half of PM2.5 mass measured in the city of Paris is due to mid- or long-range transport of secondary aerosols stemming from continental Europe, whereas local sources only contribute a quarter of the annual averaged mass. These results imply that fine-aerosol abatement policies conducted at the local scale may not be sufficient to notably reduce PM2.5 levels at urban background sites in Paris, suggesting instead more coordinated strategies amongst neighbouring countries. Similar conclusions might be drawn in other continental urban background sites given the transboundary nature of PM2.5 pollution.

Published

2014

7. A one-year comprehensive chemical characterisation of fine aerosol (PM2.5) at urban, suburban and rural background sites in the region of Paris (France)

Author

M. Bressi, J. Sciare, V. Ghersi, N. Bonnaire, J. B. Nicolas, J.-E. Petit, S. Moukhtar, A. Rosso, N. Mihalopoulos, and A. Féron

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Studies describing the chemical composition of fine aerosol (PM2.5) in urban areas are often conducted for a few weeks only and at one sole site, giving thus a narrow view of their temporal and spatial characteristics. This paper presents a one-year (11 September 2009–10 September 2010) survey of the daily chemical composition of PM2.5 in the region of Paris, which is the second most populated "Larger Urban Zone" in Europe. Five sampling sites representative of suburban (SUB), urban (URB), northeast (NER), northwest (NWR) and south (SOR) rural backgrounds were implemented. The major chemical components of PM2.5 were determined including elemental carbon (EC), organic carbon (OC), and the major ions. OC was converted to organic matter (OM) using the chemical mass closure methodology, which leads to conversion factors of 1.95 for the SUB and URB sites, and 2.05 for the three rural ones. On average, gravimetrically determined PM2.5 annual mass concentrations are 15.2, 14.8, 12.6, 11.7 and 10.8 μg m−3 for SUB, URB, NER, NWR and SOR sites, respectively. The chemical composition of fine aerosol is very homogeneous at the five sites and is composed of OM (38–47%), nitrate (17–22%), non-sea-salt sulfate (13–16%), ammonium (10–12%), EC (4–10%), mineral dust (2–5%) and sea salt (3–4%). This chemical composition is in agreement with those reported in the literature for most European environments. On an annual scale, Paris (URB and SUB sites) exhibits its highest PM2.5 concentrations during late autumn, winter and early spring (higher than 15 μg m−3 on average, from December to April), intermediates during late spring and early autumn (between 10 and 15 μg m−3 during May, June, September, October, and November) and the lowest during summer (below 10 μg m−3 during July and August). PM levels are mostly homogeneous on a regional scale, during the whole project (e.g. for URB plotted against NER sites: slope = 1.06, r2=0.84, n=330), suggesting the importance of mid- or long-range transport, and regional instead of local scale phenomena. During this one-year project, two thirds of the days exceeding the PM2.5 2015 EU annual limit value of 25 μg m−3 were due to continental import from countries located northeast, east of France. This result questions the efficiency of local, regional and even national abatement strategies during pollution episodes, pointing to the need for a wider collaborative work with the neighbouring countries on these topics. Nevertheless, emissions of local anthropogenic sources lead to higher levels at the URB and SUB sites compared to the others (e.g. 26% higher on average at the URB than at the NWR site for PM2.5, during the whole campaign), which can even be emphasised by specific meteorological conditions such as low boundary layer heights. OM and secondary inorganic species (nitrate, non-sea-salt sulfate and ammonium, noted SIA) are mainly imported by mid- or long-range transport (e.g. for NWR plotted against URB sites: slope = 0.79, r2=0.72, n=335 for OM, and slope = 0.91, r2=0.89, n=335 for SIA) whereas EC is primarily locally emitted (e.g. for SOR plotted against URB sites: slope = 0.27; r2=0.03; n=335). This database will serve as a basis for investigating carbonaceous aerosols, metals as well as the main sources and geographical origins of PM in the region of Paris.

Published

2013

8. Distribution de la surmortalité toutes causes en première vague d’épidémie de Covid-19 à l’échelle des intercommunalités franciliennes : quel lien avec les caractéristiques urbaines et sociales des territoires en Ile-de-France ?

Author

Catherine Mangeney, Hugo Pilkington, Thierry Feuillet, Valérie Féron, Jeanne Goupil de Bouillé, Maylis Telle-Lamberton, Adrien Saunal, Chantal Julia, and Stéphane Rican

Subjects

mortality, Covid-19, Ile-de-France, socio-spatial inequalities in health, urbanisation, social disadvantage, Geography. Anthropology. Recreation, Social sciences (General), H1-99

Abstract

Since the inception of the COVID-19 pandemic, several studies have highlighted the social and spatial disparities in all-cause excess mortality. In this study, we describe homogeneous territorial groups according to selected multi-dimensional risk factors associated with excess all-cause mortality during the first wave of COVID-19 in the Ile-de-France (Paris) region in France to determine whether these groups have experienced different levels of excess all-cause mortality.We calculated all-cause excess mortality between March 1st and May 31st, 2020, by EPCI/EPT – an intermediate-sized administrative area encompassing several municipalities. We created seven homogeneous territorial clusters of these areas according to selected contextual, demographic, social and initial population health status variables. We analysed the levels of all-cause excess mortality between the clusters, in the general population and for the 50-74 yrs and 75+ yrs age groups.Overall all-cause excess mortality for the region was +61.8%. It was higher in the 75+ yrs (+72.1%) than in the 50-74 yrs age group (+49.7%). All-cause excess mortality varied significantly across the seven clusters of our typology, both overall (Kruskal-Wallis (KW) Chi² = 30,93, p

Published

2024

9. Emerging application of forward osmosis and membrane distillation for post-combustion CO2 capture

Author

Wu, Xing, Feron, Paul, Ng, Derrick, Wang, Huanting, and Xie, Zongli

Published

2024

10. Cerebral blood flow and arterial transit time responses to exercise training in older adults

Author

Feron, Jack, Rahman, Foyzul, Fosstveit, Sindre H, Joyce, Kelsey E, Gilani, Ahmed, Lohne-Seiler, Hilde, Berntsen, Sveinung, Mullinger, Karen J, Segaert, Katrien, and Lucas, Samuel J E

Published

2024

11. Integrated CO2 capture and mineralization approach based on KOH and cement-based wastes

Author

Li, Liang, Yu, Hai, Ji, Long, Zhou, Song, Dao, Vinh, Feron, Paul, and Benhelal, Emad

Published

2024

12. Ex-situ mineral carbonation process challenges and technology enablers: A review from Australia’s perspective

Author

Milani, Dia, McDonald, Robbie, Fawell, Phillip, Weldekidan, Haftom, Puxty, Graeme, and Feron, Paul

Published

2025

13. Astringency sensitivity to tannic acid: Effect of ageing and salivary proline-rich protein levels

Author

Wang, Mei, Brignot, Hélène, Septier, Chantal, Martin, Christophe, Canon, Francis, and Feron, Gilles

Published

2024

14. Phospholipase PLA2G7 is complementary to GPX4 in mitigating punicic-acid-induced ferroptosis in prostate cancer cells

Author

Vermonden, Perrine, Martin, Manon, Glowacka, Katarzyna, Neefs, Ineke, Ecker, Josef, Höring, Marcus, Liebisch, Gerhard, Debier, Cathy, Feron, Olivier, and Larondelle, Yvan

Published

2024

15. Tumoral acidosis promotes adipose tissue depletion by fostering adipocyte lipolysis

Author

Lefevre, Camille, Thibaut, Morgane M., Loumaye, Audrey, Thissen, Jean-Paul, Neyrinck, Audrey M., Navez, Benoit, Delzenne, Nathalie M., Feron, Olivier, and Bindels, Laure B.

Published

2024

16. Age related impairments in ingestion from a large population based-sample

Author

Hennequin, Martine, El Osta, Nada, Munoz-Sanchez, Marie-Laure, Vandenberghe Descamps, Mathilde, Andreeva, Valentina A., Feron, Gilles, Nicolas, Emmanuel, Pereira, Bruno, Peyron, Marie-Agnès, Cousson, Pierre-Yves, Sulmont-Rosse, Claire, and Faulks, Denise

Published

2024

17. A systematic review of robotic efficacy in coral reef monitoring techniques

Author

Cardenas, Jennifer A., Samadikhoshkho, Zahra, Rehman, Ateeq Ur, Valle-Pérez, Alexander U., de León, Elena Herrera-Ponce, Hauser, Charlotte A.E., Feron, Eric M., and Ahmad, Rafiq

Published

2024

18. Management of second ipsilateral breast tumor event: An advocacy for a randomized trial

Author

Hannoun-Lévi, J.-M., Savignoni, A., Féron, J.-G., Malhaire, C., Ezzili, C., Brédart, A., Loap, P., and Kirova, Y.

Published

2024

19. A mass transfer study of CO2 absorption in aqueous solutions of isomeric forms of sodium alaninate for direct air capture application

Author

Abdellah, Mohamed H., Kiani, Ali, Conway, William, Puxty, Graeme, and Feron, Paul

Published

2024

20. The effects of counter ion on CO2 capture performance of amino acid salt solutions for direct air capture applications

Author

Abdellah, Mohamed H., Kiani, Ali, Conway, William, Puxty, Graeme, and Feron, Paul

Published

2025

21. Effects of gender and socio-environmental factors on health-care access in oncology: a comprehensive, nationwide study in France

Author

Jochum, Floriane, Hamy, Anne-Sophie, Gougis, Paul, Dumas, Élise, Grandal, Beatriz, Laas, Enora, Feron, Jean-Guillaume, Gaillard, Thomas, Girard, Noemie, Pauly, Lea, Gauroy, Elodie, Darrigues, Lauren, Hotton, Judicael, Lecointre, Lise, Reyal, Fabien, Akladios, Cherif, and Lecuru, Fabrice

Published

2023

22. Salivary cholesterol level does not reflect cholesterolemia in children with heterozygous familial hypercholesterolemia

Author

Fricaudet, Marianne, Di Filippo, Mathilde, Moulin, Philippe, Nony, Séverine, Peron, Marie Anais, Brignot, Hélène, Feron, Gilles, Sage, Cédric, Poinsot, Pierre, Duclaux Loras, Rémi, Croyal, Mikael, Charriere, Sybil, and Peretti, Noel

Published

2023

23. Tandem Heck/Tsuji-Trost Reaction for Uncaging of Alloc-Protected Amines with Palladium Complexes in Living Cells

Author

Tan, Yonghua, Lefevre, Marine, Pierrard, François, Soetens, Mathieu, Shoueiry, Maria, Yildiz, Esra, Ibanez, Sébastien, Ozkan, Kubra, Feron, Olivier, Frédérick, Raphaël, and Riant, Olivier

Published

2023

24. Implementation and propagation of prestress forces in pin-jointed and tensegrity structures

Author

Feron, Jonas and Latteur, Pierre

Published

2023

25. Impact of Covid-19 on breast cancer stage at discovery, and time to treatment in Cote d’Or, France

Author

Feron Agbo, Clémence, Assogba, Emerline, Bertaut, Aurélie, Mamguem Kamga, Ariane, Coutant, Charles, Desmoulins, Isabelle, Dancourt, Vincent, and Sandrine Dabakuyo Yonli, Tienhan

Published

2023

26. Rare earth-doped glass whispering gallery mode micro-lasers

Author

Frigenti, Gabriele, Berneschi, Simone, Farnesi, Daniele, Pelli, Stefano, Righini, Giancarlo C., Soria, Silvia, Dumeige, Yannick, Féron, Patrice, Ristić, Davor, Prudenzano, Francesco, Ferrari, Maurizio, and Nunzi Conti, Gualtiero

Published

2023

27. Gas flow enhanced mass transfer in vacuum membrane distillation

Author

Zhao, Shuaifei, Feron, Paul H.M., Chen, Xiao, Boztepe, Inci, Zhang, Jianhua, Mirza, Nouman Rafique, and Kong, Lingxue

Published

2023

28. Breast carcinomas with osteoclast-like giant cells: a comprehensive clinico-pathological and molecular portrait and evidence of RANK-L expression

Author

Cyrta, Joanna, Benoist, Camille, Masliah-Planchon, Julien, Vieira, Andre F., Pierron, Gaëlle, Fuhrmann, Laetitia, Richardot, Camille, Caly, Martial, Leclere, Renaud, Mariani, Odette, Da Maia, Elisabeth, Larousserie, Frédérique, Féron, Jean Guillaume, Carton, Matthieu, Renault, Victor, Bidard, François-Clément, and Vincent-Salomon, Anne

Published

2022

29. Wartime Sexual Violence

Author

Féron, Élise

Published

2023

30. Patterns and predictors of inter-litter differences in rabbit pup locomotor activity, based on an automatized quantification method

Author

Zepeda, José Alfredo, Bautista, Amando, Féron, Christophe, Martínez-Gómez, Margarita, Robles-Guerrero, Franco, Reyes Meza, Verónica, Hudson, Robyn, and Rödel, Heiko G.

Published

2023

31. Automatic sequential rain sampling to study atmospheric particulate and dissolved wet deposition

Author

Audoux, Thomas, Laurent, Benoit, Chevaillier, Servanne, Féron, Anaïs, Pangui, Edouard, Maisonneuve, Franck, Desboeufs, Karine, Triquet, Sylvain, Noyalet, Gael, Lauret, Olivier, and Huet, Florian

Published

2023

32. Can tribology be a tool to help tailor food for elderly population?

Author

Araiza-Calahorra, Andrea, Mackie, Alan R, Feron, Gilles, and Sarkar, Anwesha

Published

2023

33. Reclaiming water from a direct air capture plant using vacuum membrane distillation – A bench-scale study

Author

Mirza, Nouman Rafique, Fernandes, Debra, Li, Qiyuan, Omar, Amr, Zhao, Shuaifei, Xie, Zongli, Taylor, Robert, Allen, Jessica, and Feron, Paul

Published

2023

34. Sensitivity Analysis in Self-Assembly Self-Repair System

Author

Caballero, Renzo and Feron, Eric

Published

2023

35. Paddy rice methane emissions across Monsoon Asia

Author

Ouyang, Zutao, Jackson, Robert B., McNicol, Gavin, Fluet-Chouinard, Etienne, Runkle, Benjamin R.K., Papale, Dario, Knox, Sara H., Cooley, Sarah, Delwiche, Kyle B., Feron, Sarah, Irvin, Jeremy Andrew, Malhotra, Avni, Muddasir, Muhammad, Sabbatini, Simone, Alberto, Ma. Carmelita R., Cescatti, Alessandro, Chen, Chi-Ling, Dong, Jinwei, Fong, Bryant N., Guo, Haiqiang, Hao, Lu, Iwata, Hiroki, Jia, Qingyu, Ju, Weimin, Kang, Minseok, Li, Hong, Kim, Joon, Reba, Michele L., Nayak, Amaresh Kumar, Roberti, Debora Regina, Ryu, Youngryel, Swain, Chinmaya Kumar, Tsuang, Benjei, Xiao, Xiangming, Yuan, Wenping, Zhang, Geli, and Zhang, Yongguang

Published

2023

36. Photodynamic therapy using OR141-loaded nanovesicles for eradication of leukemic cells from ovarian tissue

Author

Moghassemi, Saeid, Dadashzadeh, Arezoo, Camboni, Alessandra, Feron, Olivier, Azevedo, Ricardo Bentes, and Amorim, Christiani A.

Published

2022

37. ‘It never rains, but it pours’–Disasters triggered by natural hazards, sexual risk-taking behavior, and the role of health systems: A worldwide ecological analysis

Author

Dambre, Cato, Baumgart, Nick Julien, Feron, Sarah, Engel, Ofer, Seddighi, Hamed, Degomme, Olivier, and Gallo, Valentina

Published

2022

38. Impact of measured spectrum variation on solar photovoltaic efficiencies worldwide

Author

Kinsey, Geoffrey S., Riedel-Lyngskær, Nicholas C., Miguel, Alonso-Abella, Boyd, Matthew, Braga, Marília, Shou, Chunhui, Cordero, Raul R., Duck, Benjamin C., Fell, Christopher J., Feron, Sarah, Georghiou, George E., Habryl, Nicholas, John, Jim J., Ketjoy, Nipon, López, Gabriel, Louwen, Atse, Maweza, Elijah Loyiso, Minemoto, Takashi, Mittal, Ankit, Molto, Cécile, Neves, Guilherme, Garrido, Gustavo Nofuentes, Norton, Matthew, Paudyal, Basant R., Pereira, Enio Bueno, Poissant, Yves, Pratt, Lawrence, Shen, Qu, Reindl, Thomas, Rennhofer, Marcus, Rodríguez-Gallegos, Carlos D., Rüther, Ricardo, van Sark, Wilfried, Sevillano-Bendezú, Miguel A., Seigneur, Hubert, Tejero, Jorge A., Theristis, Marios, Töfflinger, Jan A., Ulbrich, Carolin, Vilela, Waldeir Amaral, Xia, Xiangao, and Yamasoe, Márcia A.

Published

2022

39. Price formation and optimal trading in intraday electricity markets

Author

Féron, Olivier, Tankov, Peter, and Tinsi, Laura

Published

2022

40. Exploring new genomic territories with emerging model insects

Author

Feron, Romain and Waterhouse, Robert M

Published

2022

41. Green pathways for urea synthesis: A review from Australia's perspective

Author

Milani, Dia, Kiani, Ali, Haque, Nawshad, Giddey, Sarabjit, and Feron, Paul

Published

2022

42. Electrowinning-coupled CO2 capture with energy-efficient absorbent regeneration: Towards practical application

Author

Wang, Changhong, Jiang, Kaiqi, Jones, Timothy W., Yang, Shenghai, Yu, Hai, Feron, Paul, and Li, Kangkang

Published

2022

43. Phoxonic glass cavities based on whispering gallery mode resonators

Author

Farnesi, D., Berneschi, S., Frigenti, G., Nunzi Conti, G., Pelli, S., Feron, P., Murzina, T., Ferrari, M., and Soria, S.

Published

2021

44. Photodynamic cancer therapy using liposomes as an advanced vesicular photosensitizer delivery system

Author

Moghassemi, Saeid, Dadashzadeh, Arezoo, Azevedo, Ricardo Bentes, Feron, Olivier, and Amorim, Christiani A.

Published

2021

45. Gap-filling eddy covariance methane fluxes: Comparison of machine learning model predictions and uncertainties at FLUXNET-CH4 wetlands

Author

Irvin, Jeremy, Zhou, Sharon, McNicol, Gavin, Lu, Fred, Liu, Vincent, Fluet-Chouinard, Etienne, Ouyang, Zutao, Knox, Sara Helen, Lucas-Moffat, Antje, Trotta, Carlo, Papale, Dario, Vitale, Domenico, Mammarella, Ivan, Alekseychik, Pavel, Aurela, Mika, Avati, Anand, Baldocchi, Dennis, Bansal, Sheel, Bohrer, Gil, Campbell, David I, Chen, Jiquan, Chu, Housen, Dalmagro, Higo J, Delwiche, Kyle B, Desai, Ankur R, Euskirchen, Eugenie, Feron, Sarah, Goeckede, Mathias, Heimann, Martin, Helbig, Manuel, Helfter, Carole, Hemes, Kyle S, Hirano, Takashi, Iwata, Hiroki, Jurasinski, Gerald, Kalhori, Aram, Kondrich, Andrew, Lai, Derrick YF, Lohila, Annalea, Malhotra, Avni, Merbold, Lutz, Mitra, Bhaskar, Ng, Andrew, Nilsson, Mats B, Noormets, Asko, Peichl, Matthias, Rey-Sanchez, A. Camilo, Richardson, Andrew D, Runkle, Benjamin RK, Schäfer, Karina VR, Sonnentag, Oliver, Stuart-Haëntjens, Ellen, Sturtevant, Cove, Ueyama, Masahito, Valach, Alex C, Vargas, Rodrigo, Vourlitis, George L, Ward, Eric J, Wong, Guan Xhuan, Zona, Donatella, Alberto, Ma. Carmelita R, Billesbach, David P, Celis, Gerardo, Dolman, Han, Friborg, Thomas, Fuchs, Kathrin, Gogo, Sébastien, Gondwe, Mangaliso J, Goodrich, Jordan P, Gottschalk, Pia, Hörtnagl, Lukas, Jacotot, Adrien, Koebsch, Franziska, Kasak, Kuno, Maier, Regine, Morin, Timothy H, Nemitz, Eiko, Oechel, Walter C, Oikawa, Patricia Y, Ono, Keisuke, Sachs, Torsten, Sakabe, Ayaka, Schuur, Edward A, Shortt, Robert, Sullivan, Ryan C, Szutu, Daphne J, Tuittila, Eeva-Stiina, Varlagin, Andrej, Verfaillie, Joeseph G, Wille, Christian, Windham-Myers, Lisamarie, Poulter, Benjamin, and Jackson, Robert B

Published

2021

46. A generalizable artificial intelligence tool for identification and correction of self-supporting structures in additive manufacturing processes

Author

Johnson, Marshall V., Garanger, Kevin, Hardin, James O., Berrigan, J. Daniel, Feron, Eric, and Kalidindi, Surya R.

Published

2021

47. Liquefied synthetic methane from ambient CO2 and renewable H2 - A technoeconomic study

Author

Kiani, Ali, Lejeune, Michael, Li, Chaoen, Patel, Jim, and Feron, Paul

Published

2021

48. A survey of electricity spot and futures price models for risk management applications

Author

Deschatre, Thomas, Féron, Olivier, and Gruet, Pierre

Published

2021

49. Peatland warming strongly increases fine-root growth

Author

Malhotra, Avni, Brice, Deanne J., Childs, Joanne, Graham, Jake D., Hobbie, Erik A., Vander Stel, Holly, Feron, Sarah C., Hanson, Paul J., and Iversen, Colleen M.

Published

2020

50. National populism and gendered vigilantism : The case of the Soldiers of Odin in Finland

Author

Aharoni, Sarai B and Féron, Élise

Published

2020