Results 211 to 220 of about 240,027 (317)
Efficient NiOx Hole Transport Layers Enabled by Multifunctional MXenes for High‐Performance Tin‐Lead Perovskite Solar Cells
Advanced Functional Materials, EarlyView.An efficient NiOx HTL is successfully prepared by introducing MXene as an additive without further surface modification to fabricate high‐performance FASn0.5Pb0.5I3 perovskite solar cells. The introduction of MXene contributes to improved conductivity of NiOx, better aligned at NiOx/perovskite interfaces, and enhanced quality of perovskite films ...Lijun Chen, Guanqi Tang, Yanghou Wang, Xiaolong Cao, Junjun Jin, Jie Tang, Liyang Yu, Zheng Zhou, Peng You, Hanlin Hu, Weiqing Yang, Qidong Tai, Feng Yan +12 morewiley +1 more sourceToughening β‐Ga2O3 via Mechanically Seeded Dislocations
Advanced Functional Materials, EarlyView.β‐Ga2O3 is promising for next‐generation semiconductors but its brittleness limits flexible and high‐precision applications. Here, mechanically seeded dislocations introduced by surface deformation improved damage tolerance in (001) β‐Ga2O3. Nanoindentation and characterization show dislocations suppress cleavage cracks by enabling stable plastic ...Zanlin Cheng, Jiawen Zhang, Peng Gao, Guosong Zeng, Xufei Fang, Wenjun Lu +5 morewiley +1 more sourceExtensive Review of Materials for Next‐Generation Transparent Batteries and Their Design Strategies
Advanced Functional Materials, EarlyView.Review explores emerging materials and design strategies for transparent batteries, examining electrodes, electrolytes, separators, and device architectures optimized for high electrochemical performance, mechanical flexibility, and optical transparency.Atul Kumar Mishra, Shuvaraj Ghosh, Malkeshkumar Patel, Sourov Hossain, Ju‐Hyung Yun, Joondong Kim +5 morewiley +1 more sourceOvercoming the Stability Issue for Hydrophobic Hole Transporting Layers Utilized in Tin‐Lead Perovskite and Tandem Solar Cells
Advanced Functional Materials, EarlyView.A non‐annealed process is developed for non‐PEDOT:PSS inverted tin‐lead perovskite solar cells to attain PCE 22.67% for the PTAA‐based device. When PTAA is applied in an all‐perovskite tandem solar cell, a record efficiency of 28.14% is obtained with great stability for the efficiency maintaining 96% of its original value for 500 h under one‐sun ...Chun‐Hsiao Kuan, Xianyuan Jiang, Qilin Zhou, Xin Wen, Sung‐Fu Hung, Hsin‐Lung Chen, Yun‐Sheng Shih, Sudhakar Narra, Mingyu Ma, Jau‐Wern Chiou, Jhih‐Min Lin, Yi Hou, Eric Wei‐Guang Diau +12 morewiley +1 more sourceCombined performance tests before installation of the ATLAS Semiconductor and Transition Radiation Tracking Detectors
, 2008 E. Abat, A. Abdesselam, T. Addy, T. Åkesson, P. Allport, L. Andricek, F. Anghinolfi, R. Apsimon, E. Arik, Metin Arik, N. Austin, O. Baker, E. Banas, A. Bangert, G. Barbier, S. Baron, A. Barr, S. Basiladze, L. Batchelor, R. Bates, J. Batley, M. Battistin, G. Beck, A. Beddall, P. Bell, W. Bell, A. Belymam, D. Benjamin, J. Bernabeu, H. Bertelsen, S. Bethke, A. Bingul, A. Bitadze, J. Bizzell, J. Błocki, A. Bocci, M. Bochenek, J. Bohm, V. Bondarenko, P. Bonneau, C. Booth, O. Brandt, F. Brochu, Z. Broklova, J. Brôz, P. D. Renstrom, S. Burdin, C. Buttar, M. Garrido, L. Sas, C. Carpentieri, A. Carter, J. Carter, A. Catinaccio, S. Cetin, M. Llatas, D. Charlton, A. Cheplakov, S. Chouridou, M. Chu, V. Cindro, A. Ciocio, J. V. Civera, A. Clark, A. Colijn, T. Cornelissen, M. Costa, D. Costanzo, J. Cox, P. Cwetanski, W. Dąbrowski, J. Dalmau, M. Dam, K. M. Danielsen, H. Danielsson, S. D'Auria, I. Dawson, P. D. Jong, M. Dehchar, B. Demirkoz, P. Dervan, B. Girolamo, S. D. Cornell, F. Dittus, S. Dixon, E. Dobson, O. Dogan, Z. Doležal, B. Dolgoshein, M. Donega, M. D’Onofrio, T. Donszelmann, O. Dorholt, J. Dowell, Z. Drasal, N. Dressnandt, C. Driouchi, R. Duxfield, M. Dwuznik, W. Ebenstein, S. Eckert, P. Eerola, U. Egede, K. Egorov, L. Eklund, M. Elsing, R. Ely, V. Eremin, C. Escobar, H. Evans, P. Farthouat, D. Fasching, O. Fedin, L. Feld, D. Ferguson, P. Ferrari, D. Ferrere, L. Fiorini, J. Fopma, A. Fowler, H. Fox, R. French, D. Froidevaux, J. Frost, J. Fuster, S. Gadomski, P. Gagnon, B. Gallop, F. Gannaway, C. García, J. Navarro, I. Gavrilenko, N. Ghodbane, M. Gibson, S. Gibson, K. Gnanvo, J. Godlewski, T. Göttfert, S. Gonzalez, S. Gonzalez-Sevilla, M. Goodrick, A. Gorišek, E. Gornicki, M. Goulette, Y. Grishkevich, J. Grognuz, J. Grosse-Knetter, C. Haber, R. Härtel, Z. Hajduk, M. Hance, F. Hansen, J. Hansen, J. D. Hansen, P. Hansen, K. Hara, A. Harvey, M. Hauschild, C. Hauviller, B. Hawes, R. Hawkings, H. Hayward, S. Haywood, F. Heinemann, N. Hessey, J. Hill, M. Hodgkinson, P. Hodgson, T. I. Hollins, A. Holmes, R. Holt, S. Hou, D. Howell, W. Hulsbergen, T. Huse, Y. Ikegami, Y. Ilyushenka, C. Issever, J. Jackson, V. Jain, K. Jakobs, R. Jared, G. Jarlskog, P. Jarron, L. Johansen, P. Johansson, M. Jones, T. Jones, D. Joos, J. Joseph, P. Jovanović, V. Kantserov, J. Kapłon, M. Unel, F. Kayumov, P. Keener, G. Kekelidze, N. Kerschen, C. Ketterer, S. Kim, D. Kisielewska, B. Kisielewski, T. Kittelmann, E. Klinkby, P. Kluit, S. Kluth, B. Ko, P. Kodys, T. Koffas, E. Koffeman, T. Kohriki, T. Kondo, N. Kondratieva, S. Konovalov, S. Koperny, H. Korsmo, S. Kovalenko, T. Kowalski, K. Kruger, V. Kramarenko, G. Kramberger, M. Kruse, P. Kubik, L. Kudin, N. Kundu, C. Lacasta, V. Lacuesta, W. Lau, A. Bihan, S.C. Lee, R. Lefèvre, B. LeGeyt, K. Leney, C. Lester, Z. Liang, P. Lichard, W. Liebig, M. Limper, A. Lindahl, S. Lindsay, A. Lipniacka, G. L. Llácer, S. Lloyd, A. Loginov, Chang Wei Loh, M. L. Fantoba, S. Lucas, A. Lucotte, I. Ludwig, J. Ludwig, F. Luehring, L. Luisa, J. Lynn, M. Maassen, D. Macina, R. Mackeprang, A. Macpherson, C. Magrath, P. Majewski, P. Malecki, V. Maleev, I. Mandić, M. Mandl, M. Mangin-Brinet, S. Garcia, A. Martin, F. Martin, T. Maruyama, R. Mashinistov, A. Mayne, K. Mcfarlane, S. McMahon, T. Mcmahon, J. Meinhardt, B. Garcia, C. Menot, I. Messmer, B. Mikulec, M. Mikuž, S. Mima, M. Miñano, B. Mindur, V. Mitsou, P. Modesto, S. Moed, B. Mohn, R. M. Valls, J. Morin, M. Morone, S. Morozov, J. Morris, H. Moser, A. Moszczyński, S. Mouraviev, A. Munar, W. Murray, K. Nagai, Y. Nagai, D. Naito, Koji Nakamura, I. Nakano, S. Nesterov, F. Newcomer, R. Nicholson, R. Nickerson, T. Niinikoski, N. Nikitin, R. Nisius, H. Ogren, Seog Oh, M. Olcese, J. Olszowska, M. Orphanides, V. O'Shea, W. Ostrowicz, B. Ottewell, O. Øye, E. Paganis, M. Palmer, M. A. Parker, U. Parzefall, M. Passmore, S. Pataraia, G. Pellegrini, H. Pernegger, E. Perrin, V. Peshekhonov, T. Petersen, R. Petti, A. Phillips, P. Phillips, A. Placci, K. Poltorak, A. Poppleton, M. Price, K. Prokofiev, O. Røhne, C. Rembser, P. Reznicek, R. Richter, A. Robichaud-Veronneau, D. Robinson, S. Roe, A. Romaniouk, L. Rossi, D. Rousseau, G. Ruggiero, K. Runge, Y. Ryabov, A. Salzburger, Javier Sánchez, H. Sandaker, J. Santander, V. Schegelsky, D. Scheirich, J. Schieck, M. Schmidt, C. Schmitt, E. Sedykh, D. Seliverstov, A. Sfyrla, T. Shin, A. Shmeleva, S. Sivoklokov, S. Smirnov, L. Smirnova, O. Smirnova, M. Söderberg, A. O. Solberg, V. Sosnovtsev, L. Suay, H. Spieler, G. Sprachmann, E. Stanecka, S. Stapnes, J. Šťastný, M. Stodulski, A. Stradling, B. Stugu, S. Subramania, S. Suchkov, V. Sulin, R. Szczygiel, R. Takashima, R. Tanaka, G. Tartarelli, P. Teng, S. Terada, V. Tikhomirov, P. Tipton, M. Titov, K. Toms, A. Tonoyan, D. Tovey, A. Tricoli, M. Turala, M. Tyndel, F. Ukegawa, M. Comes, Y. Unno, V. Vacek, S. Valkar, J. Ferrer, E. Kraaij, R. Vanberg, V. Vassilakopoulos, L. Vassilieva, T. Vickey, G. Viehhauser, E. Villani, J. Vossebeld, T. Anh, R. Wall, R. Wallny, C. Wang, C. Ward, R. Wastie, M. Webel, Michael S. Weber, A. Weidberg, P. Weilhammer, C. Weiser, P. Wells, P. Werneke, M. White, D. Whittington, A. Wildauer, I. Wilhelm, H. Williams, J. Wilson, M. Wolter, S. Wu, A. Zhelezko, Heling Zhu, A. Zsenei +434 moresemanticscholar +1 more sourceInput to the European strategy for particle physics: strong-field quantum electrodynamics. [PDF]
Eur Phys J PlusSarri G, King B, Blackburn T, Ilderton A, Boogert S, Bulanov SS, Bulanov SV, Di Piazza A, Ji L, Karbstein F, Keitel CH, Krajewska K, Malka V, Mangles SPD, Mathieu F, McKenna P, Meuren S, Mirzaie M, Ridgers C, Seipt D, Thomas AGR, Uggerhøj U, Vranic M, Wing M. +23 moreeuropepmc +1 more sourceGram‐Scale Production of Iron Oxide Rubik‐Cube Nanoparticles: New Tools for the Clinical Translation of Magnetic Hyperthermia and Magnetic Particle Imaging
Advanced Functional Materials, EarlyView.This work reports the first gram‐scale solvothermal synthesis of ‘Rubik's cube’ nanoparticles—cubic, dendritic multicore structures with tuneable sizes and exceptional magnetic heating performance. Featuring iron oxide single‐domain character, with low coercivity fields, high magnetization, and strong MPI signals, they enable viscosity‐independent ...Giusy M. R. Rizzo, Niccolò Silvestri, Nabila Jarmouni, Helena Gavilán, Hamza Yakubu, Daniel Arenas‐Esteban, Sara Bals, Paola Parlanti, Mauro Gemmi, Ross Clark Prado, Anna Cristina S. Samia, Verónica Salgueiriño, Teresa Pellegrino +12 morewiley +1 more sourceTriple GEM tracking detectors for COMPASS
, 2002 B. Ketzer, M. Altunbas, K. Dehmelt, J. Ehlers, J. Friedrich, B. Grube, S. Kappler, I. Konorov, S. Paul, A. Placci, L. Ropelewski, F. Sauli, L. Schmitt, F. Simon +13 moresemanticscholar +1 more source
