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604 results on '"Schmutz M"'

1. Tuning the water intrinsic permeability of PEGDA hydrogel membranes by adding free PEG chains of varying molar masses

Author

Eddine, Malak Alaa, Carvalho, Alain, Schmutz, M., Salez, Thomas, de Chateauneuf-Randon, Sixtine, Bresson, Bruno, Pantoustier, Nadège, Monteux, C., and Belbekhouche, S.

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Chemical Physics
Abstract

We explore the effect of poly (ethylene glycol) (PEG) molar mass on the intrinsic permeability and structural characteristics of poly (ethylene glycol) diacrylate PEGDA/PEG composite hydrogel membranes. We observe that by varying the PEG content and molar mass, we can finely adjust the water intrinsic permeability over several orders of magnitude. Notably, we show the existence of a maximum water intrinsic permeability, already identified in a previous study to be located at the critical overlap concentration C^* of PEG chains, for the highest PEG molar mass studied. Furthermore, we note that the maximum intrinsic permeability follows a non-monotonic evolution with respect to the PEG molar mass and reaches its peak at 35 000 g.mol-1. Besides our results show that a significant fraction of PEG chains is irreversibly trapped within the PEGDA matrix even for the shortest molar masses down to 600 g.mol-1. This observation suggests the possibility of covalent grafting of PEG chains to the PEGDA matrix. CryoSEM and AFM measurements demonstrate the presence of large micron-sized cavities separated by PEGDA-rich walls whose nanometric structure strongly depends on the PEG content. By combining our permeability and structural measurements, we suggest that the PEG chains trapped inside the PEGDA rich walls induce nanoscale defects in the cross linking density, resulting in an increased permeability below C^*. Conversely, above C^*, we speculate that partially-trapped PEG chains may form a brush-like arrangement on the surface of the PEGDA-rich walls, leading to a reduction in permeability. These two opposing effects are anticipated to exhibit molar-mass-dependent trends, contributing to the non-monotonic variation of the maximum intrinsic permeability at C^*. Overall, our results demonstrate the potential to fine-tune the properties of hydrogel membranes, offering new opportunities in separation applications.

Published
2024

2. Sieving and clogging in PEG-PEGDA hydrogel membranes

Author

Eddine, Malak Alaa, Carvalho, Alain, Schmutz, M., Salez, Thomas, de Chateauneuf-Randon, Sixtine, Bresson, Bruno, Belbekhouche, S., and Monteux, C.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Hydrogels are promising systems for separation applications due to their structural characteristics (i.e. hydrophilicity and porosity). In our study, we investigate the permeation of suspensions of rigid latex particles of different sizes through free-standing hydrogel membranes prepared by photopolymerization of a mixture of poly (ethylene glycol) diacrylate (PEGDA) and large poly (ethylene glycol) (PEG) chains of 300 000 g.mol-1 in the presence of a photoinitiator. Atomic force microscopy (AFM) and cryoscanning electron microscopy (cryoSEM) were employed to characterize the structure of the hydrogel membranes. We find that the 20 nm particle permeation depends on both the PEGDA/PEG composition and the pressure applied during filtration. In contrast, we do not measure a significant permeation of the 100 nm and 1 $\mu$m particles, despite the presence of large cavities of 1 $\mu$m evidenced by cryoSEM images. We suggest that the PEG chains induce local nanoscale defects in the cross-linking of PEGDA-rich walls separating the micron size cavities, that control the permeation of particles and water. Moreover, we discuss the decline of the permeation flux observed in the presence of latex particles, compared to that of pure water. We suggest that a thin layer of particles forms on the surface of the hydrogels.

Published
2023

3. Field-scale estimation of soil properties from spectral induced polarization tomography

Author

Revil, A, Schmutz, M, Abdulsamad, F, Balde, A, Beck, C, Ghorbani, A, and Hubbard, SS

Subjects
Induced polarization, Chargeability, Soil, Grain size, Cation exchange capacity, Water content, Tomography, Critical zone, Environmental Sciences, Biological Sciences, Agricultural and Veterinary Sciences, Agronomy & Agriculture
Abstract

Estimates of soil properties such as Cation Exchange Capacity (CEC), water content, grain size characteristics, and permeability are important in geotechnical engineering, water resources, and agriculture. We develop a non-intrusive approach to estimate these properties in the field using spectral induced polarization (SIP) tomography. This geophysical method provides information about the frequency dependence of the complex electrical conductivity of porous media. Using 18 soil samples collected from a Bordeaux vineyard, we first conducted a laboratory study using SIP over the frequency range 10 mHz-45 kHz. The laboratory data were used to confirm the accuracy of a recently developed dynamic Stern layer petrophysical model. The results are consistent with published values from previous works using soils. A comparison was made by comparing the field complex conductivity spectra and the experimental data at two locations where core samples were obtained. The model was then used in concert with field data to image the spatial distribution of CEC, water content, permeability, and mean grain size along a vineyard transect. For clay and sandy textures found in the field, measured and estimated CEC agree rather well (from 6 to 40% discrepancy). Our approach provides an efficient way to estimate important soil properties in a non-invasive manner, in high resolution, and over field-relevant scales of the critical zone of the Earth.

Published
2021

4. Estimation of soil classes and their relationship to grapevine vigor in a Bordeaux vineyard: advancing the practical joint use of electromagnetic induction (EMI) and NDVI datasets for precision viticulture

Author

Hubbard, SS, Schmutz, M, Balde, A, Falco, N, Peruzzo, L, Dafflon, B, Léger, E, and Wu, Y

Subjects
Geophysics, Precision viticulture, Electrical conductivity, Electromagnetic Induction, NDVI, Hyperspectral, Bordeaux, Vineyard soil, Grapevine vigor, Agronomy & Agriculture, Crop and Pasture Production
Abstract

Working within a vineyard in the Pessac Léognan Appellation of Bordeaux, France, this study documents the potential of using simple statistical methods with spatially-resolved and increasingly available electromagnetic induction (EMI) geophysical and normalized difference vegetation index (NDVI) datasets to accurately estimate Bordeaux vineyard soil classes and to quantitatively explore the relationship between vineyard soil types and grapevine vigor. First, co-located electrical tomographic tomography (ERT) and EMI datasets were compared to gain confidence about how the EMI method averaged soil properties over the grapevine rooting depth. Then, EMI data were used with core soil texture and soil-pit based interpretations of Bordeaux soil types (Brunisol, Redoxisol, Colluviosol and Calcosol) to estimate the spatial distribution of geophysically-identified Bordeaux soil classes. A strong relationship (r = 0.75, p < 0.01) was revealed between the geophysically-identified Bordeaux soil classes and NDVI (both 2 m resolution), showing that the highest grapevine vigor was associated with the Bordeaux soil classes having the largest clay fraction. The results suggest that within-block variability of grapevine vigor was largely controlled by variability in soil classes, and that carefully collected EMI and NDVI datasets can be exceedingly helpful for providing quantitative estimates of vineyard soil and vigor variability, as well as their covariation. The method is expected to be transferable to other viticultural regions, providing an approach to use easy-to-acquire, high resolution datasets to guide viticultural practices, including routine management and replanting.

Published
2021

5. Imaging of plant current pathways for non-invasive root Phenotyping using a newly developed electrical current source density approach

Author

Peruzzo, L, Chou, C, Wu, Y, Schmutz, M, Mary, B, Wagner, FM, Petrov, P, Newman, G, Blancaflor, EB, Liu, X, Ma, X, and Hubbard, S

Subjects
Root current pathways, Root imaging, Current source density, Rhizotron, Electrical resistivity tomography, Mise a la masse, Environmental Sciences, Biological Sciences, Agricultural and Veterinary Sciences, Agronomy & Agriculture
Abstract

Aims: The flow of electric current in the root-soil system relates to the pathways of water and solutes, its characterization provides information on the root architecture and functioning. We developed a current source density approach with the goal of non-invasively image the current pathways in the root-soil system. Methods: A current flow is applied from the plant stem to the soil, the proposed geoelectrical approach images the resulting distribution and intensity of the electric current in the root-soil system. The numerical inversion procedure underlying the approach was tested in numerical simulations and laboratory experiments with artificial metallic roots. We validated the method using rhizotron laboratory experiments on maize and cotton plants. Results: Results from numerical and laboratory tests showed that our inversion approach was capable of imaging root-like distributions of the current source. In maize and cotton, roots acted as “leaky conductors”, resulting in successful imaging of the root crowns and negligible contribution of distal roots to the current flow. In contrast, the electrical insulating behavior of the cotton stems in dry soil supports the hypothesis that suberin layers can affect the mobility of ions and water. Conclusions: The proposed approach with rhizotrons studies provides the first direct and concurrent characterization of the root-soil current pathways and their relationship with root functioning and architecture. This approach fills a major gap toward non-destructive imaging of roots in their natural soil environment.

Published
2020

6. Time-lapse monitoring of root water uptake using electrical resistivity tomography and mise-à-la-masse: A vineyard infiltration experiment

Author

Mary, B, Peruzzo, L, Boaga, J, Cenni, N, Schmutz, M, Wu, Y, S Hubbard, S, and Cassiani, G

Abstract

This paper presents a time-lapse application of electrical methods (electrical resistivity tomography, ERT; and mise-à-la-masse, MALM) for monitoring plant roots and their activity (root water uptake) during a controlled infiltration experiment. The use of non-invasive geophysical monitoring is of increasing interest as these techniques provide time-lapse imaging of processes that otherwise can only be measured at few specific spatial locations. The experiment here described was conducted in a vineyard in Bordeaux (France) and was focused on the behaviour of two neighbouring grapevines. The joint application of ERT and MALM has several advantages. While ERT in time-lapse mode is sensitive to changes in soil electrical resistivity and thus to the factors controlling it (mainly soil water content, in this context), MALM uses DC current injected into a tree stem to image where the plant root system is in effective electrical contact with the soil at locations that are likely to be the same where root water uptake (RWU) takes place. Thus, ERT and MALM provide complementary information about the root structure and activity. The experiment shows that the region of likely electrical current sources produced by MALM does not change significantly during the infiltration time in spite of the strong changes of electrical resistivity caused by changes in soil water content. Ultimately, the interpretation of the current source distribution strengthened the hypothesis of using current as a proxy for root detection. This fact, together with the evidence that current injection in the soil and in the stem produces totally different voltage patterns, corroborates the idea that this application of MALM highlights the active root density in the soil. When considering the electrical resistivity changes (as measured by ERT) inside the stationary volume of active roots delineated by MALM, the overall tendency is towards a resistivity increase during irrigation time, which can be linked to a decrease in soil water content caused by root water uptake. On the contrary, when considering the soil volume outside the MALM-derived root water uptake region, the electrical resistivity tends to decrease as an effect of soil water content increase caused by the infiltration. The use of a simplified infiltration model confirms at least qualitatively this behaviour. The monitoring results are particularly promising, and the method can be applied to a variety of scales including the laboratory scale where direct evidence of root structure and root water uptake can help corroborate the approach. Once fully validated, the joint use of MALM and ERT can be used as a valuable tool to study the activity of roots under a wide variety of field conditions.

Published
2020

10. Small-scale characterization of vine plant root water uptake via 3-D electrical resistivity tomography and mise-à-la-masse method

Author

Mary, B, Peruzzo, L, Boaga, J, Schmutz, M, Wu, Y, Hubbard, SS, and Cassiani, G

Subjects
Physical Geography and Environmental Geoscience, Civil Engineering, Environmental Engineering
Abstract

The investigation of plant roots is inherently difficult and often neglected. Being out of sight, roots are often out of mind. Nevertheless, roots play a key role in the exchange of mass and energy between soil and the atmosphere, in addition to the many practical applications in agriculture. In this paper, we propose a method for roots imaging based on the joint use of two electrical noninvasive methods: electrical resistivity tomography (ERT) and mise-à-la-masse (MALM). The approach is based on the key assumption that the plant root system acts as an electrically conductive body, so that injecting electrical current into the plant stem will ultimately result in the injection of current into the subsoil through the root system, and particularly through the root terminations via hair roots. Evidence from field data, showing that voltage distribution is very different whether current is injected into the tree stem or in the ground, strongly supports this hypothesis. The proposed procedure involves a stepwise inversion of both ERT and MALM data that ultimately leads to the identification of electrical resistivity (ER) distribution and of the current injection root distribution in the three-dimensional soil space. This, in turn, is a proxy to the active (hair) root density in the ground. We tested the proposed procedure on synthetic data and, more importantly, on field data collected in a vineyard, where the estimated depth of the root zone proved to be in agreement with literature on similar crops. The proposed noninvasive approach is a step forward towards a better quantification of root structure and functioning.

Published
2018

11. The Relative Importance of Saturated Silica Sand Interfacial and Pore Fluid Geochemistry on the Spectral Induced Polarization Response

Author

Peruzzo, L, Schmutz, M, Franceschi, M, Wu, Y, and Hubbard, SS

Subjects
SIP, adsorption, silica, copper, sodium, quadrature conductivity, Geophysics
Abstract

Adsorption at the solid-pore fluid interface is a key mechanism controlling the mobility of nutrients and contaminants in subsurface soils and sediments. The spectral induced polarization (SIP) method has been shown to be sensitive to the quantity and type of adsorbed ions. Extending previous results, we investigated the relevance of pH, solution conductivity, and ion type on the SIP response of saturated silica sand. We also performed adsorption experiments to evaluate whether adsorption plays a relevant role on the effect of saturating solution conductivity and pH. Given their environmental relevance and different electrochemical characteristics, we focused on exploring the influence of Cu2+ and Na+ adsorption on the SIP signature. The adsorption results confirm the expected and modeled pH influence on the adsorption of both Cu2+ and Na+. The measured quadrature conductivity spectra indicate that pH and solution conductivity control the electrical double layer electrochemical state and its capacitive behavior. On the contrary, no appreciable SIP signal changes are associated with ion substitution. The adsorption experiments highlight low values of site occupancy for Na and Cu, which suggests that the effects of pH and fluid conductivity are unrelated to their control on the ion adsorption. We interpret the solution conductivity as a proxy for ionic strength. The relative importance of pH and solution conductivity over ion type helps to further constrain the interpretation of SIP results in field geochemical and biogeochemical characterization and monitoring.

Published
2018

14. Corrigendum to “An analysis of the maxillary beak shape variation between 2 pure layer lines and its relationship to the underlying premaxillary bone, feather cover, and mortality” [Poult. Sci. 102 (8) (2023) 102854]

Author

Struthers, S., primary, Andersson, B., additional, Schmutz, M., additional, Matika, O., additional, McCormack, H.A., additional, Wilson, P.W., additional, Dunn, I.C., additional, Sandilands, V., additional, and Schoenebeck, J.J., additional

Published
2023
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20. Toward High Efficiency Water Processed Organic Photovoltaics: Controlling the Nanoparticle Morphology with Surface Energies

Author

Laval, H, Holmes, A, Marcus, MA, Watts, B, Bonfante, G, Schmutz, M, Deniau, E, Szymanski, R, Lartigau-Dagron, C, Xu, X, Cairney, JM, Hirakawa, K, Awai, F, Kubo, T, Wantz, G, Bousquet, A, Holmes, NP, Chambon, S, Laval, H, Holmes, A, Marcus, MA, Watts, B, Bonfante, G, Schmutz, M, Deniau, E, Szymanski, R, Lartigau-Dagron, C, Xu, X, Cairney, JM, Hirakawa, K, Awai, F, Kubo, T, Wantz, G, Bousquet, A, Holmes, NP, and Chambon, S

Abstract

Here efficient organic photovoltaic devices fabricated from water-based colloidal dispersions with donor:acceptor composite nanoparticles achieving up to 9.98% power conversion efficiency (PCE) are reported. This high efficiency for water processed organic solar cells is attributed to morphology control by surface energy matching between the donor and the acceptor materials. Indeed, due to a low interfacial energy between donor and the acceptor, no large phase separation occurs during the nanoparticle formation process as well as upon thermal annealing. Indeed, synchrotron-based scanning transmission X-ray microscopy reveals that the internal morphology of composite nanoparticles is intermixed as well as the active layer morphology after thermal treatment. The PCE of this system reaches 85% that of devices prepared from chlorinated solvent. The gap between water-based inks and organic solvent-based inks gets narrower, which is promising for the development of eco-friendly processing and fabrication of organic photovoltaics.

Published
2023

21. Periodisches Fieber und Panzytopenie bei einem 35-jährigen Patienten

Author

Schmutz, M., Schaller, T., Kubuschok, B., Fleischmann, C., Hirschbühl, K., Dintner, S., Häckel, T., Märkl, B., Trepel, M., and Claus, R.

Abstract

Anamnese und klinischer Befund: Ein 35-jähriger Patient mit periodischem Fieber bis 40?°C, Halsschmerzen, Myalgie und Zephalgien stellte sich zur Abklärung einer Panzytopenie vor. Die Umfeld- und jüngere Reiseanamnese waren, abgesehen von einem Besuch in Italien vor einem Jahr und in Spanien vor mehreren Jahren, leer. Untersuchungen: Neben der Panzytopenie mit Agranulozytose und erhöhten Infektwerten ohne wegweisenden serologischen Befund fand sich klinisch eine Lymphadenitis colli. In der Schnittbildgebung fanden sich eine zervikale Lymphadenopathie, eine Hepatosplenomegalie sowie eine gedeckte Sigmaperforation mit parakolischem Abszess und langstreckiger diffuser Wandverdickung des Kolons. Im Knochenmark (KM) fand sich eine reaktive, polyklonale Plasmazellvermehrung. Im Lymphknotenbiopsat ergab sich das Bild einer nekrotisierenden Lymphadenitis. Diagnose: Im Lymphknoten ließen sich mittels Polymerase-Kettenreaktion Leishmanien-DNA und im KM-Ausstrichpräparat Leishmanien lichtmikroskopisch nachweisen. Somit konnte die Diagnose einer viszeralen Leishmaniose (VL) gestellt werden. Therapie und Verlauf: Es wurde eine Therapie mit liposomalem Amphotericin B begonnen. Fieberschübe und Lymphadenopathie zeigten sich daraufhin regredient. Schlussfolgerung: Die VL ist eine pleiotrop, häufig schwer und unbehandelt tödlich, verlaufende Erkrankung, die sich ähnlich einer hämatologischen Systemerkrankung präsentiert, gelegentlich ein fulminantes Makrophagenaktivierungssyndrom auslöst und weltweit in seiner Häufigkeit zunimmt. Pathophysiologisch liegt ein komplexes Zusammenspiel zwischen Erreger und Immunsystem vor.

Published
2024
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25. Environmentally Friendly Method of Assembly of Cardanol and Cholesterol into Nanostructures Using a Continuous Flow Microfluidic Device

Author

Zizzari, A, Bloise, E, Perrone, E, Perinelli, DR, Schmutz, M, Arima, V, Mele, G, Carbone, L, Zizzari, A, Bloise, E, Perrone, E, Perinelli, Dr, Schmutz, M, Arima, V, Mele, G, and Carbone, L

Subjects
hydrodynamic focusing approach, microfluidic, cryo-electron microscopy, microreactor, cardanol- and cholesterol-based nanovesicle, green nanovesicle, natural lipid waste
Abstract

This study shows a viable and straightforward microfluidic method of assembly of cardanol (CA) and cholesterol (CH) into amphiphile nanostructures obtained through a hydrodynamic focusing approach according to which an alcoholic solution of CA and CH is constrained within a two-dimensional lamina shape by two lateral streams of borate buffer solution. The process is performed within glass-made cross-shaped micro-sized fluidic chips specially designed to achieve a laminar regime. CA, distilled from the cashew nut shell liquid, is demonstrated as a surface-active molecule in borate buffer basic medium and when mixed with CH it produces versatile nanovesicles through an in-batch solvent-free process. Compared to this conventional method, the microfluidic route allows operating under continuous flows, with a reduced amount of reagents and at lower experimental temperatures, ensuring no waste formation and the achievement of size-monodisperse amphiphile nanostructures that do not need further steps of purification. Electron microscopy analyses demonstrate that upon increasing CH in the lipid mixture, a switchover from spherical CA micelles to CA/CH mixed closed vesicles occurs. Differential scanning microcalorimetry confirms the formation of vesicular structures and evidences the primary role of CH, which increasingly lowers the temperature of transition depending on its concentration.

Published
2022

27. Concept and feasibility of the Augsburg Longitudinal Plasma Study (ALPS) – a prospective trial for comprehensive liquid biopsy-based longitudinal monitoring of solid cancer patients

Author

Sommer Sebastian, Schmutz Maximilian, Hildebrand Kathrin, Schiwitza Annett, Benedikt Selinah, Eberle Maria, Mögele Tatiana, Sultan Aziz, Reichl Lena, Campillo Maria, Uhrmacher Luise, Nikolic Ana Antic, Bundschuh Ralph, Lapa Constantin, Kuhlen Michaela, Dintner Sebastian, Langer Angela, Märkl Bruno, Wendler Thomas, Tehlan Kartikay, Kröncke Thomas, Wahle Maria, Mann Matthias, Casadei Nicolas, Pogoda Michaela, Hummler Simone, Sax Irmengard, Schlesner Matthias, Kubuschok Boris, Trepel Martin, and Claus Rainer

Subjects
liquid biopsy, ctdna, longitudinal profiling, clonal evolution, spatial heterogeneity, translational research, Medical technology, R855-855.5
Abstract

Liquid biopsy (LBx) provides diagnostic, prognostic and predictive insights for malignant diseases and offers promising applications regarding tumor burden, tumor heterogeneity and clonal evolution.

Published
2024
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28. Machine-Learning Functional Zonation Approach for Characterizing Terrestrial–Aquatic Interfaces: Application to Lake Erie

Author

Enguehard, L, Enguehard, L, Falco, N, Schmutz, M, Newcomer, ME, Ladau, J, Brown, JB, Bourgeau-Chavez, L, Wainwright, HM, Enguehard, L, Enguehard, L, Falco, N, Schmutz, M, Newcomer, ME, Ladau, J, Brown, JB, Bourgeau-Chavez, L, and Wainwright, HM

Abstract

Ecosystems at coastal terrestrial–aquatic interfaces play a significant role in global biogeo-chemical cycles. In this study, we aimed to characterize coastal wetlands with particular focus on the co-variability between plant dynamics, topography, soil, and other environmental factors. We proposed a functional zonation approach based on machine learning clustering to identify the spatial regions, i.e., zones that capture these co-varied properties. This approach was applied to publicly available datasets along Lake Erie, in the Great Lakes Region. We investigated the heterogeneity of coastal ecosystem structures as a function of along-shore distance and transverse distance, based on the spatial data layers, including topography, wetland vegetation cover, and the time series of Land-sat’s enhanced vegetation index (EVI) between 1990 and 2020. Results showed that the topographic metrics (elevation and slope), soil texture, and plant productivity influence the spatial distribution of wetland land-covers (emergent and phragmites). These results highlight a natural organization along the transverse axis, where the elevation and the EVI increase further away from the coastline. In addition, the clustering analysis allowed us to identify regions with distinct environmental characteristics, as well as the ones that are more sensitive to interannual lake-level variations.

Published
2022

35. Induced Polarization of Carbonates

Author

Panwar, N., primary, Revil, A., additional, Sharma, R., additional, Schmutz, M., additional, Duvillard, P.A., additional, Garcia, B., additional, Cerepi, A., additional, Garcia‐Artigas, R., additional, Vaudelet, P., additional, Malet, E., additional, and Jaillet, S., additional

Published
2021
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37. Real-Time Global Coverage of Satellite Based Irradiation Data – Benchmark and Applications

Author

Schmutz, M., Müller, S., and Remund, J.

Subjects
PV Systems and Storage – Modelling, Design, Operation and Performance, Solar Resource and Forecasting
Abstract

37th European Photovoltaic Solar Energy Conference and Exhibition; 1485-1487, Information about the current, past and future global irradiation is crucial to plan, maintain and survey solar plants and energy grids as well as for energy trading and technologies in the area of building automation or building energy management. Till summer 2020 the European and African continent as well as India and parts of central Asia have been covered by the MSG and IODC satellites. By summer 2020 the satellite data products of Meteotest reached a seamless coverage of the entire continental land mass between 60° N and 60° S. This is achieved by extending the satellite mosaic with additional data from the two satellites GOES-16 (USA) and Himawari 8 (Japan) and will result in a global data archive as well as a real time data service providing high quality irradiation data for most of the areas with relevant solar energy potential. As part of the go-live of the global satellite coverage in the first half of 2020 we will present results from a benchmark by comparing the satellite data derived with the HelioMont method against ground measurements from regional and global radiation networks (e.g. BSRN or SURFRAD).

Published
2020
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38. Meteonorm Version 8

Author

Remund, J., Müller, S.C., Schmutz, M., and Graf, P.

Subjects
PV Systems and Storage – Modelling, Design, Operation and Performance, Solar Resource and Forecasting
Abstract

37th European Photovoltaic Solar Energy Conference and Exhibition; 1466-1467, Version 8 of the global climate database Meteonorm has been published in August 2020. This paper shows the most important updates. All types of meteo and climate data has been updated: historic climate values include now the last years; current time series based on satellite are covering almost the whole world and future IPCC data are totally updated with anomalies of three RCP scenarios. The paper shows also a new flow chart enabling the overlook of the different data sources and the two main products: the typical years and the time series.

Published
2020
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47. Induced polarization applied to biogeophysics: recent advances and future prospects

Author

Kessouri, P., primary, Furman, A., additional, Huisman, J.A., additional, Martin, T., additional, Mellage, A., additional, Ntarlagiannis, D., additional, Bücker, M., additional, Ehosioke, S., additional, Fernandez, P., additional, Flores‐Orozco, A., additional, Kemna, A., additional, Nguyen, F., additional, Pilawski, T., additional, Saneiyan, S., additional, Schmutz, M., additional, Schwartz, N., additional, Weigand, M., additional, Wu, Y., additional, Zhang, C., additional, and Placencia‐Gomez, E., additional

Published
2019
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48. Tuning bilayer twist using chiral counterions

Author

Oda, R., Huc, I., Schmutz, M., Candau, S.J., and MacKintosh, F.C.

Subjects
Chirality -- Research, Surface active agents -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Cationic gemini surfactants with chiral counterions such as L-tartrate form gels by developing extended networks of multilamellar twisted ribbons. The chirality comes from the counterion, rather than from the amphiphile. Similar structures are found for diacetylenic lipids, glutamates and bile. The helical ribbons are unstable, evolving into tubules. Twisted ribbons have a curvature that differs from cylindrical curvature of helical ribbons, and no evolution towards closed chiral aggregates was observed. The twisted ribbons may be stable and the chirality can be continuously varied.

Published
1999

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