Publications

Edith A. Gonzalez, Stephan Moser, Axel Körner, Larissa Born, Götz T. Gresser, Robert Weitlaner, and Jan Knippers. Advancing Solar Control and Energy Harvesting through the Use of Pneumatically Actuated Elastic Adaptive Facades. ECCOMAS Proceedia, 744 -756, 2023. [PUMA: 2023 Actuated Adaptive Advancing Control Elastic Energy Facades Harvesting Pneumatical Solar born flectuation gonzalez gresser itke knippers körner moser]

Edith A. Gonzalez, Stephan Moser, Axel Körner, Larissa Born, Götz T. Gresser, Robert Weitlaner, and Jan Knippers. Advancing Solar Control and Energy Harvesting through the Use of Pneumatically Actuated Elastic Adaptive Facades. ECCOMAS Proceedia, 744 -756, 2023. [PUMA: Facades Solar körner Pneumatical born Harvesting 2023 Advancing gresser knippers moser Actuated Elastic Control gonzalez itke Adaptive flectuation Energy]

Petra Michaely, Jürgen Schroth, Heide Schuster, Werner Sobek, and Thomas Thümmler. F87: Mein Haus - mein Auto - meine Tankstelle, das Effizienzhaus Plus mit Elektromobilitaet in Berlin. Greenbuilding, (5)6:19--23, 2012. [PUMA: BLN, Batterie, Berlin, Demonstrationsobjekt, Deutschland, E-Mobilitaet, Effizienzhaus, Elektroauto, Elektrofahrzeug, Elektromobilitaet, Elektrospeicher, Energiebedarf, Energieeffizienz, Entwurf, Fahrrad, Flaechenheizung, Forschungsprogramm, Gebaeudehuelle, Gebaeudetechnik, Gesundheitsrisiko, Holztafelbauweise, Messung, Nachhaltigkeit, PV-Anlage, Photovoltaikanlage, Sonnenschutz, Stromversorgung, Tankstelle, Vorfertigung, Waermepumpe, Waermerueckgewinnung, Wettbewerb, Wohnhaus, battery, bicycle, building building, car, competition, construction, demand, demonstration design, efficiency, electric electrical energy health heat heater, heating, measurement, object, panel photovoltaic prefabrication, programme, pump, recovery, research residential risk, service shading, shape, simulation, sobek solar station, storage supply, sustainability system, technology, vehicle, wood] URL

Marc-Steffen Fahrion, Kurt Denzel, and Werner Sobek. Das Prinzip der Schwesterlichkeit - Mitversorgung von Denkmälern durch Plusenergiegebäude. In Bernhard Weller, and Sebastian Horn (Eds.), Denkmal und Energie 2018: Energieeffizienz, Nachhaltigkeit und Nutzerkomfort, 79--92, Springer Vieweg, Wiesbaden, 2017. [PUMA: (Architekt), (Architekt, (renewable), Aktivhaus, Baden-Württemberg, Batteriespeicher, Bauen, Baugeschichte, Bundesrepublik, Corbusier Daten(technisch), Denkmalpflege, Deutschland, Electro Elektromobilität, Energie(erneuerbar), Energiedach, Energiekonzept, Energieverbrauch, Energieversorgung, Experimentalhaus, Flachdach, Forschungsprojekt, Grid, Group Heritage Home, Ingenieur), Ingenieur, Jeanneret, Le Modulbauweise, Montage, Mustersiedlung, Neues PV PV-Anlage, Pierre Planer), Plusenergiehaus, Site, Smart Sobek Sobek, Solarthermie, Stadtquartier, Steuerungstechnik, Stuttgart(11), TGA, Trägerrost, Vacuum Vakuumisolationspaneel, Vorfertigung, WSGreen Weissenhof Weißenhofsiedlung, Weltkulturerbe, Werner World assembly, beam building care concept, construction, consumption, control data(technical), energy estate, experimental flat grid, grillage, history, home, house, isolation mobility, model modular monuments, new of panel, plus prefabrication, project, quarter, quarters, research roof, solar supply, system, technology, the thermics, town twenties,] URL

Martin Synold, Walter Haase, Thorsten Klaus, and Werner Sobek. Multifunctional membrane envelopes. Taller, Longer, Lighter: IABSE-IASS 2011 Symposium, September 20-23, 2011, London, Paper 541, Hemming, London, 2011. [PUMA: adaptive building energy envelopes, multilayer saving, sobek structures sustainability, textile]

Eberhard Kurz, Lothar Rau, Norbert Frühauf, Walter Haase, Marijo Prskalo, and Werner Sobek. Cost-efficient manufacturing process of switchable glazing based on twisted nematic LC cells. Liquid Crystals XV, August 21-22, 2011, San Diego, Calif., SPIE, Bellingham, Wash., 2011. [PUMA: Aluminum, Cells, Crystals, Energy Glass, Glazes, Indium Industrial Liquids, Manufacture, Nematic Optical Production Tin Tin, Zinc Zinc, compounds, crystals, engineering, instruments, liquid oxide oxides, sobek transfer,]

Nicu Toader, Werner Sobek, and Klaus G. Nickel. Energy absorption in functionally graded concrete bioinspired by sea urchin spines. Journal of Bionic Engineering, (14)2:369--378, 2017. [PUMA: absorption, behaviour biomimetic concrete, energy engineering, failure functionally graceful graded sea sobek spine, urchin]

Werner Sobek. Buildings as renewable power plants: active houses for the electric city. In Peter Droege (Eds.), Urban energy transition: renewable strategies for cities and regions, 131--138, Elsevier, Amsterdam, 2018. [PUMA: Aktivhaus, B10, electromobility, energy infrastructure, management, renewable resources sobek] URL

Marc-Steffen Fahrion, Susan Draeger, Michel Sinn, Leman Altinisik, and Werner Sobek. AKTIVkrankenhaus – Modernisierungsstrategie für ein klimaneutrales Krankenhausareal. Bauphysik, (40)4:169--179, 2018. [PUMA: Bestandsanalyse, CO2 CO2-Einsparung, Effizienzsteigerung, Energieeinsparung, Energiekonzept, Energiequellen, Energieversorgung, Energy Increase Renewable Status Triple Zero Zero-Konzept analysis, climate-neutral concept, efficiency, energy in klimaneutrale performance, reduction, regenerative saving, sobek sources, strategy, supply,] URL

Enrica Oliva, Michele Andaloro, and Werner Sobek. Orbit tower: proposal for a hybrid structural-facade system featuring a self-adaptive solar shading device. Facade Tectonics 2018 World Congress, March 12-13, 2018, Los Angeles, CA, (1):47--64, 2018. [PUMA: - adaptive alloy, and cable carbon, daylighting dynamic, energy facade, glare hybrid kinetic parametric shading, shape-memory sobek structure-skin workflow,]

Charlotte Wagner, Kathrin Walz, Krzysztof Rudion, D. Burghof, and I. Mauser. Vehicle-to-home or battery energy storage systems - a comparison of the potential usage in smart homes.. June 2023. [PUMA: Vehicle-to-home battery energy homes smart storage systems]

Wolfgang Hauser. Analysis and agent-based modelling of lifestyle aspects influencing the residential energy demand in France and Germany. Universität Stuttgart, 2013. [PUMA: , 300, Agent-based Agentenbasierte Elektrizitätsverbrauch Energieverbrauch Internationaler Lastkurven Lebensstil Lifestyle Modelling Simulation Simulation, Vergleich, curve demand energy load residential] URL

E. Ochoa-Martinez, M. Ochoa, R. D. Ortuso, P. Ferdowsi, R. Carron, A. N. Tiwari, U. Steiner, and M. Saliba. Physical Passivation of Grain Boundaries and Defects in Perovskite Solar Cells by an Isolating Thin Polymer. ACS Energy Letters, (6)7:2626-2634, June 2021. [PUMA: cells energy perovskites solar]

Y. Zhou, and M. Saliba. Zooming In on Metal Halide Perovskites: New Energy Frontiers Emerge. ACS Energy Letters, (6)8:2750-2754, July 2021. [PUMA: energy perovskites]

M. Mohammadi, S. Gholipour, M. M. Byranvand, Y. Abdi, N. Taghavinia, and M. Saliba. Encapsulation Strategies for Highly Stable Perovskite Solar Cells under Severe Stress Testing: Damp Heat, Freezing, and Outdoor Illumination Conditions. ACS Applied Materials & Interfaces, (13)38:45455-45464, September 2021. [PUMA: cells energy perovskites photovoltaics solar]

D. Ma, I. Mora-Sero, M. Saliba, and L. Etgar. Energy Spotlight: Stabilization of Perovskite Solar Cells. ACS Energy Letters, (6)10:3750-3752, 2021. [PUMA: energy perovskites photovoltaics]

L. Etgar, D. Ma, I. Mora-Sero, and M. Saliba. All-in-one Lewis Base for Enhanced Precursor and Device Stability in Highly Efficient Perovskite Solar Cells. ACS Energy Letters, (6)10:3752-3752, 2021. [PUMA: energy perovskites photovoltaics solar]

M. Saliba, T. Matsui, K. Domanski, J. Seo, S. M. Zakeeruddin, W. R. Tress, and M. Graetzel. Mixed cation perovskite solid state solar cell and fabrication thereof. 2021. [PUMA: cells energy perovskites solar]

M. Saliba, D. Mcmeekin, H. J. Snaith, and B. Wenger. Mixed cation perovskite. 2021. [PUMA: energy perovskites solar]