Authors: Taek Cho, Kyung, Lee, Yonghui, Almora Rodríguez, Osbel, Grancini, Giulia, Ryu, Jaehoon, Tschumi, Manuel, Jang, Jyongsik, Paek, Sanghyun, Garcia-Belmonte, Germà, Nazeeruddin, Mohammad Khaja
Subject Terms: Perovskite solar cells (PSCs), High-power conversion efficiency (PCE), Photostability, Thermal stability, Three-dimensional (3D), Molecularly engineering
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Relation: Energy & Environmental Science (2018), v. 11, issue 4; 1) NSF NRP 70 project; 2) number: 407040_154056, European Commission H2020-ICT-2014- 1,SOLEDLIGHT project, grant agreement N1: 643791; 3) SwissState Secretariat for Education, Research and Innovation (SERI); 3) TI 15864.2 PFNM-NM, Solaron ix, Aubonne, Switzerland. G. G. acknowledges the Swiss National Science Foundation (SNSF) funding through the Ambizione Energy project HYPER (grant number PZENP2_173641; 4) MINECO of Spain for funding under project MAT2016-76892-C3-3-R; 5) Funds N1 563074; 6) Generalitat Valenciana for a grant (GRISOLIAP2014/ 035); 7) Global Frontier R&D Program of the Center for Multiscale Energy System funded by the National Research Foundation under the Mi nistry of Education, Science and Technology, Korea (NRF-2012M3A6A7054861); https://pubs.rsc.org/en/journals/journalissues/ee#!issueid=ee011004&type=current&issnprint=1754-5692; TAEK CHO, Kyung; LEE, Yonghui; ALMORA RODRÍGUEZ, Osbel; GRANCINI, Giulia; RYU, Jaehoon; TSCHUMI, Manuel; JANG, Jyongsik, PAEK, Sanghyun; GARCIA-BELMONTE, Germà; NAZEERUDDIN, Mohammad Khaja (2018). Selective Growth of Layered Perovskites for Stable and Efficient Photovoltaics. Energy & Environmental Science, v. 11, issue 4, p. 952-959; http://hdl.handle.net/10234/177886; http://dx.doi.org/10.1039/C7EE03513F
Authors: Maldonado, José Miguel, Fullana-Puig, Margalida, Martín Llop, Marc, Solé, Aran, Fernández, Ángel G., De Gracia, Álvaro, CABEZA, LUISA F.
Contributors: 1) uropean Union’s Horizon 2020 Research & Innovation Programme under Grant Agreement 723596 with reference name Innova MicroSolar, 2) Ministerio de Econom í a y Competitividad de España (ENE2015-64117-C5-1-R (MINECO/FEDER) and ENE2015-64117-C5-3-R (MINECO/FEDER)), 3) Catalan Government for the quality accreditation given to their research group (2017 SGR 1537), 4) panish Government for his research fellowship (BES-2016-076554), 5) Ministerio de Econom í a y Competitividad de España for Grant Juan de la Cierva, FJCI-2015-25741, 6) European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No. 712949, 7) GIZ “Programa de pasant í a en el extranjero en tecnolog í as de concentraci ó n solar para investigadores” and CONICYT/FONDAP 15110019 “Solar Energy Research Center” SERC-Chile.
Subject Terms: Thermal energy storage (TES), Fresnel collector, Thermal stability, Cycling stability, Thermophysical properties, Health hazard, Myo-inositol, Solar salt, Infrared spectroscopy (IR), Differential scanning calorimetry (DSC)
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Relation: Energies (2018), v. 11, n. 4; https://www.mdpi.com/1996-1073/11/4/861; MALDONADO, José Miguel; FULLANA-PUIG, Margarida; MARTÍN, Marc; SOLÉ, Aran; FERNÁNDEZ, Ángel G.; DE GRACIA, Álvaro; CABEZA, Luisa F. (2018). Phase Change Material Selection for Thermal Energy Storage at High Temperature Range between 210 degrees C and 270 degrees C. Energies, v. 11, n. 4; http://hdl.handle.net/10234/177332; https://doi.org/10.3390/en11040861
Subject Terms: thermal energy storage (TES), phase change material (PCM), partial load, thermal stability, cycling stability, health hazard, application
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Relation: Applied Sciences, 2017, vol. 7, no 7, p. 722; Spanish government / ENE2015-64117-C5-1-R; European Commission Seventh Framework Programme (FP) / PIRSES-GA-2013-610692; European Union's Horizon research and innovation programme / 657466; Departament d'Universitats, Recerca i Societat de la Informacio de la Generalitat de Catalunya / 2017 FI_B1 00092; Ministerio de Economia y Competitividad de Espana / FJCI-2014-22886; FJCI-2015-25741; http://www.mdpi.com/2076-3417/7/7/722/htm; GASIA, Jaume, et al. Phase Change Material Selection for Thermal Processes Working under Partial Load Operating Conditions in the Temperature Range between 120 and 200° C. Applied Sciences, 2017, vol. 7, no 7, p. 722; http://hdl.handle.net/10234/171001; http://dx.doi.org/10.3390/app7070722
Authors: Roca, Maite, Liu, Hanbin, Messer, Benjamin, Warshel, Arieh
Subject Terms: Thermal stability, Enzymes, Catalytic power, Dynamics, Dihydrofolate reductase (DHFR)
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Relation: Biochemistry (2007), v. 46, issue 51; ROCA MOLINER, María Teresa; LIU, Hanbin; MESSER, Benjamin; WARSHEL, Arieh. On the relationship between thermal stability and catalytic power of enzymes. Biochemistry (2007), v. 46, issue 51, pp. 15076-15088; http://hdl.handle.net/10234/159458; http://dx.doi.org/10.1021/bi701732a
Authors: Pagès, Pere, Carrasco, Félix, Gamez-Perez, Jose, Santana Pérez, Orlando Onofre, Maspoch, Maria Lluïsa
Subject Terms: PLA, PLA/montmorillonita, Extrusión, Inyección, Recocido, Cristalinidad, Estabilidad térmica, FTIR, XRD, DSC, TGA, PLA/montmorillonite, Extrusion, Injection, Annealing, Crystallinity, Thermal stability, Biopolymers, Polímers (Biologia)
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Relation: Afinidad (2010) vol. 66, núm. 545, p. 14-20; http://hdl.handle.net/10234/32976
Availability: http://hdl.handle.net/10234/32976
Subject Terms: Pseudopeptides, Organogelators, Urea, Thermal stability
Relation: Tetrahedron Volume 69, Issue 10, 11 March 2013; http://www.sciencedirect.com/science/article/pii/S004040201300032X; RUBIO, Jenifer, et al. Synthesis and organogelating ability of bis-urea pseudopeptidic compounds. Tetrahedron, 2013, 69.10: 2302-2308.; http://hdl.handle.net/10234/91270; http://dx.doi.org/10.1016/j.tet.2013.01.007
Subject Terms: Poly(lactic acid), Organomontmorillonite, Polymer matrix composites, Melt degradation, Intercalation/exfoliation, Thermal stability, Kinetics of thermal decomposition
Relation: http://www.sciencedirect.com/science/article/pii/S1385894711012757; Chemical Engineering Journal (15 Dec. 2011), vol. 178, 451–460; http://hdl.handle.net/10234/46440; http://dx.doi.org/10.1016/j.cej.2011.10.036