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Nature Materials
Resumen/Descripción – provisto por la editorial en inglés
Nature Materials is a monthly multi-disciplinary journal aimed at bringing together cutting-edge research across the entire spectrum of materials science and engineering. Materials research is a diverse and fast-growing discipline, which has moved from a largely applied, engineering focus to a position where it has an increasing impact on other classical disciplines such as physics, chemistry and biology. Nature Materials covers all applied and fundamental aspects of the synthesis/processing, structure/composition, properties and performance of materials, where "materials" are identified as substances in the condensed states (liquid, solid, colloidal) designed or manipulated for technological ends.Palabras clave – provistas por la editorial
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Disponibilidad
Institución detectada | Período | Navegá | Descargá | Solicitá |
---|---|---|---|---|
No detectada | desde jul. 2012 / hasta dic. 2023 | Nature.com |
Información
Tipo de recurso:
revistas
ISSN impreso
1476-1122
ISSN electrónico
1476-4660
Editor responsable
Springer Nature
País de edición
Reino Unido
Fecha de publicación
2001-
Cobertura temática
Tabla de contenidos
Suppressing ion migration in metal halide perovskite via interstitial doping with a trace amount of multivalent cations
Yepin Zhao; Ilhan Yavuz; Minhuan Wang; Marc H. Weber; Mingjie Xu; Joo-Hong Lee; Shaun Tan; Tianyi Huang; Dong Meng; Rui Wang; Jingjing Xue; Sung-Joon Lee; Sang-Hoon Bae; Anni Zhang; Seung-Gu Choi; Yanfeng Yin; Jin Liu; Tae-Hee Han; Yantao Shi; Hongru Ma; Wenxin Yang; Qiyu Xing; Yifan Zhou; Pengju Shi; Sisi Wang; Elizabeth Zhang; Jiming Bian; Xiaoqing Pan; Nam-Gyu Park; Jin-Wook Lee; Yang Yang
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
Pp. No disponible
Planar thermal Hall effect of topological bosons in the Kitaev magnet α-RuCl3
Peter Czajka; Tong Gao; Max Hirschberger; Paula Lampen-Kelley; Arnab Banerjee; Nicholas Quirk; David G. Mandrus; Stephen E. Nagler; N. P. Ong
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
Pp. No disponible
Efficient vertical charge transport in polycrystalline halide perovskites revealed by four-dimensional tracking of charge carriers
Changsoon Cho; Sascha Feldmann; Kyung Mun Yeom; Yeoun-Woo Jang; Simon Kahmann; Jun-Yu Huang; Terry Chien‐Jen Yang; Mohammed Nabaz Taher Khayyat; Yuh-Renn Wu; Mansoo Choi; Jun Hong Noh; Samuel D. Stranks; Neil C. Greenham
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
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Active pixel sensor matrix based on monolayer MoS2 phototransistor array
Akhil Dodda; Darsith Jayachandran; Andrew Pannone; Nicholas Trainor; Sergei P. Stepanoff; Megan A. Steves; Shiva Subbulakshmi Radhakrishnan; Saiphaneendra Bachu; Claudio W. Ordonez; Jeffrey R. Shallenberger; Joan M. Redwing; Kenneth L. Knappenberger; Douglas E. Wolfe; Saptarshi Das
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
Pp. No disponible
Magnetic anisotropy reversal driven by structural symmetry-breaking in monolayer α-RuCl3
Bowen Yang; Yin Min Goh; Suk Hyun Sung; Gaihua Ye; Sananda Biswas; David A. S. Kaib; Ramesh Dhakal; Shaohua Yan; Chenghe Li; Shengwei Jiang; Fangchu Chen; Hechang Lei; Rui He; Roser Valentí; Stephen M. Winter; Robert Hovden; Adam W. Tsen
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
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Optical method for quantifying the potential of zero charge at the platinum–water electrochemical interface
Pengtao Xu; Alexander D. von Rueden; Roberto Schimmenti; Manos Mavrikakis; Jin Suntivich
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
Pp. No disponible
Proximity-induced superconductivity in epitaxial topological insulator/graphene/gallium heterostructures
Cequn Li; Yi-Fan Zhao; Alexander Vera; Omri Lesser; Hemian Yi; Shalini Kumari; Zijie Yan; Chengye Dong; Timothy Bowen; Ke Wang; Haiying Wang; Jessica L. Thompson; Kenji Watanabe; Takashi Taniguchi; Danielle Reifsnyder Hickey; Yuval Oreg; Joshua A. Robinson; Cui-Zu Chang; Jun Zhu
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
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Chiral-phonon-activated spin Seebeck effect
Kyunghoon Kim; Eric Vetter; Liang Yan; Cong Yang; Ziqi Wang; Rui Sun; Yu Yang; Andrew H. Comstock; Xiao Li; Jun Zhou; Lifa Zhang; Wei You; Dali Sun; Jun Liu
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
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An ordered, self-assembled nanocomposite with efficient electronic and ionic transport
Tyler J. Quill; Garrett LeCroy; David M. Halat; Rajendar Sheelamanthula; Adam Marks; Lorena S. Grundy; Iain McCulloch; Jeffrey A. Reimer; Nitash P. Balsara; Alexander Giovannitti; Alberto Salleo; Christopher J. Takacs
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
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Dynamic crystallography reveals spontaneous anisotropy in cubic GeTe
Simon A. J. Kimber; Jiayong Zhang; Charles H. Liang; Gian G. Guzmán-Verri; Peter B. Littlewood; Yongqiang Cheng; Douglas L. Abernathy; Jessica M. Hudspeth; Zhong-Zhen Luo; Mercouri G. Kanatzidis; Tapan Chatterji; Anibal J. Ramirez-Cuesta; Simon J. L. Billinge
<jats:title>Abstract</jats:title><jats:p>Cubic energy materials such as thermoelectrics or hybrid perovskite materials are often understood to be highly disordered<jats:sup>1,2</jats:sup>. In GeTe and related IV–VI compounds, this is thought to provide the low thermal conductivities needed for thermoelectric applications<jats:sup>1</jats:sup>. Since conventional crystallography cannot distinguish between static disorder and atomic motions, we develop the energy-resolved variable-shutter pair distribution function technique. This collects structural snapshots with varying exposure times, on timescales relevant for atomic motions. In disagreement with previous interpretations<jats:sup>3–5</jats:sup>, we find the time-averaged structure of GeTe to be crystalline at all temperatures, but with anisotropic anharmonic dynamics at higher temperatures that resemble static disorder at fast shutter speeds, with correlated ferroelectric fluctuations along the <100><jats:sub>c</jats:sub> direction. We show that this anisotropy naturally emerges from a Ginzburg–Landau model that couples polarization fluctuations through long-range elastic interactions<jats:sup>6</jats:sup>. By accessing time-dependent atomic correlations in energy materials, we resolve the long-standing disagreement between local and average structure probes<jats:sup>1,7–9</jats:sup> and show that spontaneous anisotropy is ubiquitous in cubic IV–VI materials.</jats:p>
Palabras clave: Mechanical Engineering; Mechanics of Materials; Condensed Matter Physics; General Materials Science; General Chemistry.
Pp. No disponible