Results 211 to 220 of about 4,448,555 (379)
Quantum information meets high-energy physics: input to the update of the European strategy for particle physics. [PDF]
Eur Phys J PlusAfik Y, Fabbri F, Low M, Marzola L, Aguilar-Saavedra JA, Altakach MM, Asbah NA, Bai Y, Banks H, Barr AJ, Bernal A, Browder TE, Caban P, Casas JA, Cheng K, Déliot F, Demina R, Di Domenico A, Eckstein M, Fabbrichesi M, Fuks B, Gabrielli E, Gonçalves D, Grabarczyk R, Grossi M, Han T, Hobbs TJ, Horodecki P, Howarth J, Hsu SC, Jiggins S, Jones E, Jung AW, Knue AH, Korn S, Lagouri T, Lamba P, Landi GT, Li H, Li Q, Low I, Maltoni F, McFayden J, McGinnis N, Morales RA, Moreno JM, de Nova JRM, Negro G, Pagani D, Pelliccioli G, Pinamonti M, Pintucci L, Ravina B, Ruzi A, Sakurai K, Simpson E, Sioli M, Su S, Trifinopoulos S, Vahsen SE, Vallecorsa S, Vicini A, Vos M, Vryonidou E, White CD, White MJ, Wildridge AJ, Wu TA, Zani L, Zhang Y, Zoch K. +70 moreeuropepmc +1 more sourceDeciphering the Origin of Higher Shell Coordination on Single Iron Catalysts for Resilient Modulating Persulfate Oxidation Into Singlet Oxygen Pathway
Advanced Functional Materials, Volume 35, Issue 12, March 18, 2025.This study reveals that higher shell S coordination can effectively modulate the spin state of FeN4 site via long‐range electronic interactions, giving rise to the oriented generation of singlet oxygen from peroxymonosulfate activation. Abstract
Precise manipulation of coordination structure of single‐atom sites and establishment of schematic ...Liang Zhang, Kai Cheng, Zhizhi Yang, Ye Zhang, Shiro Kubuki, Paul A. Bingham, Yang‐Chun Yong, Bofan Zhang, Xiaoguang Duan +8 morewiley +1 more sourceAchieving Large and Anisotropic Spin‐Mediated Thermal Transport in Textured Quantum Magnets
Advanced Functional Materials, Volume 35, Issue 12, March 18, 2025.An advanced solvent‐cast cold pressing method is developed to synthesize highly textured quantum magnets. By aligning spin chains in Ca2CuO3 perpendicular to the pressing direction, a spin‐mediated thermal conductivity of 10 ± 1 W m⁻¹ K⁻¹ is achieved, the highest reported for polycrystalline quantum materials.Shucheng Guo, Xue Bai, Boqun Liang, Thomas Hoke, Ming Liu, Rafal E. Dunin‐Borkowski, Xi Chen +6 morewiley +1 more sourceAPS : Review of Particle Physics, 2018
, 2018 M. Tanabashi, Peter J. Richardson, A. Bettini, A. Vogt, L. Garren, A. Schwartz, K. Terashi, M. Karliner, R. Chivukula, T. Sjöstrand, J. Beringer, S. Bethke, G. Gerbier, P. Nason, H. Dreiner, Y. Kwon, J. Beatty, E. Pianori, M. Silari, J. Peacock, A. Cerri, A. D. Gouvea, R. Zhu, C. Bauer, T. Mannel, T. Liss, M. Pennington, D. Tovey, Fabio Sauli, K. Johnson, Stephene R. Sharpe, C. Hanhart, T. Sumiyoshi, J. Anderson, H. Baer, J. Matthews, H. Gallagher, D. Chakraborty, T. DeGrand, L. Wiencke, H. Haber, A. Hocker, F. Moortgat, M. Antonelli, A. Quadt, J. Tanaka, P. A. Zyla, G. Venanzoni, Y. Hayato, G. D'Ambrosio, C. Sachrajda, U. Thoma, G. Rybka, D. Groom, Matthias Neubert, G. P. Salam, H. Bichsel, E. Weinberg, K. Hikasa, A. Pomarol, P. Skands, S. Navas, D. Wands, A. Freitas, G. Aielli, Z. Ligeti, A. Ringwald, P. Nevski, T. Shutt, M. Titov, T. Hyodo, D. Weinberg, S. Stone, K. Agashe, A. Masoni, O. Buchmuller, D. Scott, S. L. Zhu, L. Fuller, S. Griso, Alan D. Martin, K. S. Lugovsky, H. Murayama, K. Hagiwara, R. Ryutin, M. Drees, C. Grab, S. Banerjee, B. Fields, M. Goodman, M. A. Bychkov, B. Heltsley, D. Dwyer, T. Basaglia, Chunqing Lin, D. Florian, G. Raffelt, H. Spieler, F. Zimmermann, J. Rademacker, S. Rolli, C. Grojean, Burkert, C. Amsler, J. Lesgourgues, T. Gutsche, J. Erler, K. Mönig, G. Valencia, Y. Gershtein, J. Terning, J. Smith, J. Womersley, A. Lusiani, J. Ellis, Y. Sakai, A. Piepke, E. Klempt, A. Stahl, K. D. Irwin, A. Gritsan, P. Eerola, V. Petrov, G. Smoot, S. Sarkar, G. Zeller, W. J. Marciano, K. Olive, C. Patrignani, R. L. Workman, F. Maltoni, G. Dissertori, Y. Sumino, C. Spiering, Yu. V. Kuyanov, U. Meissner, M. Carena, B. Krusche, R. Mitchell, T. Gershon, F. Krauss, M. Narain, N. Varelas, W. Walkowiak, Ezhela, K. Hayes, A. Ceccucci, Stefan Roesler, F. Takahashi, J. Hisano, P. Vogel, M. Wascko, L. Verde, S. Petcov, M. Syphers, V. Belousov, O. Lahav, O. Zenin, C. Woody, A. Liddle, M. D’Onofrio, M. Kado, O. Dahl, S. Klein, M. Moskovic, D. Asner, A. Gurtu, D. Ward, M. C. Chen, S. Heinemeyer, R. Kowalewski, A. Godizov, D. Milstead, M. Vincter, S. Eidelman, R. Firestone, L. Rosenberg, M. Grünewald, K. Black, N. P. Tkachenko, B. Dobrescu, T. Gherghetta, W. Yao, S. Willocq, R. Barnett, A. Holtkamp, L. Littenberg, M. Kreps, R. Thorne, O. Schneider, P. Molaro, W. Fetscher, J. Holder, N. Tornqvist, E. Blucher, P. Schaffner, U. Katz, A. Romaniouk, P. D. Jong, B. Foster, Sharma, S. Hashimoto, K. Scholberg, R. D. Water, T. Skwarnicki, C. Walter, J. Parsons, G. Weiglein, R. Cahn, C. Wohl, J. Rosner, V. S. Lugovsky, B. Ratcliff, Martin White, Y. Nir, H. Gerber, S. Wakely, C. Lippmann, J. Laiho, O. Biebel, J. Hernández-Rey, T. Damour, G. Cowan, Y. Makida, L. Tiator, M. Doser, S. Spanier, S. Lugovsky, A. Hebecker, Kei Nakamura, A. Manohar +230 moresemanticscholar +1 more sourceThermally Induced Gelling Systems Based on Patchy Polymeric Micelles
Advanced Functional Materials, Volume 35, Issue 12, March 18, 2025.A novel strategy to design thermally induced gelling systems with tunable material properties is reported. Polymeric mixed‐shell micelles displaying multiple thermosensitive patchy domains formed hydrogels by assembling into well‐entangled worm‐like network structures upon heating to body temperature. The patchy micelle design significantly affects the Binru Han, Shota Fujii, André J. van der Vlies, Masoud Ghasemi, Joshua T. Del Mundo, Sarah N. Kiemle, Esther W. Gomez, Enrique D. Gomez, Ralph H. Colby, Urara Hasegawa +9 morewiley +1 more source
