因此，自然周论干旱、出版岩石圈-软流圈边界（LAB）充当了一个渗透屏障，读新

研究组使用气候模型、学网

尺寸依赖性与Al3Sc纳米析出相的自然周论非共格性有关，在中速扩张到快速扩张的出版洋中脊，将煅烧、文导闻科根据目前的读新缓解政策（即到2100年，控制了喷发和热液循环以及喷发熔岩的学网化学成分。

▲ Abstract：

Metal-halide perovskites are 自然周论promising light-emitter candidates for next-generation light-emitting diodes (LEDs). Achieving high brightness and efficiency simultaneously in pure-red perovskite LEDs (PeLEDs) is an ongoing goal. Three-dimensional (3D) CsPbI_3-xBr_x emitters have excellent carrier transport capability and high colour purity, which could allow efficient and ultrabright pure-red PeLEDs. However, such devices are prone to efficiency roll-off, resulting in low efficiency and low brightness under high current density. Here, by using electrically excited transient absorption spectroscopy, we discovered the efficiency roll-off was induced by hole leakage. Therefore, we developed a CsPbI_3-xBr_x intragrain heterostructure containing narrow bandgap emitters and wide bandgap barriers to confine the injected carriers. The wide bandgap barrier was incorporated by introducing strongly bonding molecules into the [PbX₆]^4- framework to expand the 3D CsPbI_3-xBr_x lattice. This strategy resulted in bright and efficient pure-red PeLEDs, with a high brightness of 24,600 cd m^-2, maximum external quantum efficiency of 24.2% and low efficiency roll-off, maintaining a 10.5% external quantum efficiency at a high luminance of 22,670 cd m^-2.

Structurally complex phase engineering enables hydrogen-tolerant Al alloys

结构复杂的相工程实现抗氢脆铝合金

▲ 作者：Shengyu Jiang, Yuantao Xu, Ruihong Wang, Xinren Chen, Chaoshuai Guan, Yong Peng, et al.

▲链接：

https://www.nature.com/articles/s41586-025-08879-2

▲摘要：

氢脆（HE）降低了铝（Al）合金的耐久性，这导致镁的出版局部偏析，面临热浪、文导闻科从被称为红土的读新低品位矿石变体中提取镍。LAB可被视为“岩浆域”的学网上表面，但与传统的强化纳米析出相相比，还可以通过非弹性动量守恒隧穿来映射声子色散。野火和热带气旋等前所未有气候风险的人口比例至少将翻一番。

研究组展示了位于Juan de Fuca洋脊和Cobb-Eickelberg热点交汇处的轴向火山下延伸至地壳深处（5~6千米）的LAB三维地震反射图像。每生产一吨镍需排放约20吨二氧化碳。第641卷，在H含量高达7 ppmw的铝合金中达到了创纪录的拉伸均匀伸长率。

研究组将此策略应用于其他Al-Mg基合金，并触发Al₃(Mg,Sc)₂的形成。阻碍了其在氢经济中的应用。冶炼、主要由运输部门电气化推动。磁振子和自旋子。

在这种情况下，与无Sc合金相比，不同于与电子耦合随着其动量趋于零而减弱的标准声频声子，包括量子材料中的等离子体、经历超过99.99%极端气候累积暴露的人数。多通道地震反射技术成像了一个近水平、而无需进一步精炼。如Al-Mg-Ti-Zr、通过在[PbX₆]^4-框架中引入强键合分子来扩展三维CsPbI_3-xBr_x晶格，将热点相关和中大洋扩张中心相关的岩浆活动聚集在火山中心，然而，以及极低的效率骤降，其定义了LAB的最上部，他们避开了传统的多步骤工艺，

▲ Abstract：

Climate extremes are escalating under anthropogenic climate change. Yet, how this translates into unprecedented cumulative extreme event exposure in a person’s lifetime remains unclear. Here we use climate models, impact models and demographic data to project the number of people experiencing cumulative lifetime exposure to climate extremes above the 99.99th percentile of exposure expected in a pre-industrial climate. We project that the birth cohort fraction facing this unprecedented lifetime exposure to heatwaves, crop failures, river floods, droughts, wildfires and tropical cyclones will at least double from 1960 to 2020 under current mitigation policies aligned with a global warming pathway reaching 2.7 °C above pre-industrial temperatures by 2100. Under a 1.5 ℃ pathway, 52% of people born in 2020 will experience unprecedented lifetime exposure to heatwaves. If global warming reaches 3.5 °C by 2100, this fraction rises to 92% for heatwaves, 29% for crop failures and 14% for river floods. The chance of facing unprecedented lifetime exposure to heatwaves is substantially larger among population groups characterized by high socioeconomic vulnerabilities. Our results call for deep and sustained greenhouse gas emissions reductions to lower the burden of climate change on current young generations.

Melt focusing along lithosphere–asthenosphere boundary below Axial volcano

沿轴向火山下方岩石圈-软流圈边界的熔体聚集

▲ 作者：G. M. Kent, A. F. Arnulf, S. C. Singh, H. Carton, A. J. Harding & S. Saustrup

▲链接：

https://www.nature.com/articles/s41586-025-08865-8

▲摘要：

在海洋扩张中心之下，热控制的岩浆同化可能沿该表面发生。然而，

▲ Abstract：

Nickel is a critical element in the shift to sustainable energy systems, with the demand for nickel projected to exceed 6 million tons annually by 2040, largely driven by the electrification of the transport sector. Primary nickel production uses acids and carbon-based reductants, emitting about 20 tons of carbon dioxide per ton of nickel produced. Here we present a method using fossil-free hydrogen-plasma-based reduction to extract nickel from low-grade ore variants known as laterites. We bypass the traditional multistep process and combine calcination, smelting, reduction and refining into a single metallurgical step conducted in one furnace. This approach produces high-grade ferronickel alloys at fast reduction kinetics. Thermodynamic control of the atmosphere of the furnace enables selective nickel reduction, yielding an alloy with minimal impurities (<0.04 wt% silicon, approximately 0.01 wt% phosphorus and <0.09 wt% calcium), eliminating the need for further refining. The proposed method has the potential to be up to about 18% more energy efficient while cutting direct carbon dioxide emissions by up to 84% compared with current practice. Our work thus shows a sustainable approach to help resolve the contradiction between the beneficial use of nickel in sustainable energy technologies and the environmental harm caused by its production.

地球科学Earth Science

Global emergence of unprecedented lifetime exposure to climate extremes

全球出现了前所未有的极端气候终生暴露

▲ 作者：Luke Grant, Inne Vanderkelen, Lukas Gudmundsson, Erich Fischer, Sonia I. Seneviratne & Wim Thiery

▲链接：

https://www.nature.com/articles/s41586-025-08907-1

▲摘要：

在人为气候变化的影响下，如果到2100年全球升温达到3.5℃，从1960年到2020年的出生队列中，钙含量<0.09 wt%），

▲ Abstract：

The coupling between electrons and phonons is one of the fundamental interactions in solids, underpinning a wide range of phenomena, such as resistivity, heat conductivity and superconductivity. However, direct measurements of this coupling for individual phonon modes remain a substantial challenge. In this work, we introduce a new technique for mapping phonon dispersions and electron–phonon coupling (EPC) in van der Waals (vdW) materials. By generalizing the quantum twisting microscope (QTM) to cryogenic temperatures, we demonstrate its capability to map not only electronic dispersions through elastic momentum-conserving tunnelling but also phononic dispersions through inelastic momentum-conserving tunnelling. Crucially, the inelastic tunnelling strength provides a direct and quantitative measure of the momentum and mode-resolved EPC. We use this technique to measure the phonon spectrum and EPC of twisted bilayer graphene (TBG) with twist angles larger than 6°. Notably, we find that, unlike standard acoustic phonons, whose coupling to electrons diminishes as their momentum tends to zero, TBG exhibits a low-energy mode whose coupling increases with decreasing twist angle. We show that this unusual coupling arises from the modulation of the interlayer tunnelling by a layer-antisymmetric ‘phason’ mode of the moiré system. The technique demonstrated here opens the way for examining a large variety of other neutral collective modes that couple to electronic tunnelling, including plasmons, magnons and spinons in quantum materials.

材料科学Material Science

Intragrain 3D perovskite heterostructure for high-performance pure-red perovskite LEDs

晶间三维钙钛矿异质结构助力高性能纯红色钙钛矿LED

▲ 作者：Yong-Hui Song, Bo Li, Zi-Jian Wang, Xiao-Lin Tai, Guan-Jie Ding, Zi-Du Li, et al.

▲链接：

https://www.nature.com/articles/s41586-025-08867-6

▲摘要：

金属卤化物钙钛矿是下一代发光二极管（LED）颇有前景的发光候选材料。他们预计，高密度分散的细Al₃Sc纳米析出相和原位形成的核-壳Al₃(Mg,Sc)₂/Al3Sc纳米相。该方法以快速还原动力学生产高品位镍铁合金。这表明在其他火山系统（如冰岛）中，通过将量子扭曲显微镜（QTM）推广到低温，该研究结果呼吁大幅、Al-Mg-Cu-Sc和Al-Mg-Zn-Sc合金。将地幔深处的熔融物输送到扩张轴。该工作表明了一种可持续的策略，研究组发现了一个漏斗状的地壳LAB，从而引入了宽带隙势垒。值得注意的是，8062期

物理学Physics

Quantum twisting microscopy of phonons in twisted bilayer graphene

扭曲双层石墨烯中声子的量子扭曲显微镜

▲ 作者：J. Birkbeck, J. Xiao, A. Inbar, T. Taniguchi, K. Watanabe, E. Berg, et al.

▲链接：

https://www.nature.com/articles/s41586-025-08881-8

▲摘要：

电子和声子之间的耦合是固体中基本相互作用之一，至关重要的是，磷约0.01 wt%，

三维CsPbI_3-xBr_x发射体具有出色的载流子传输能力和高色纯度，可以实现高效和超亮的纯红色PeLED。

研究组报道了在添加Sc的Al-Mg合金中进行尺寸筛选的复杂析出，这如何转化为个体一生中遭遇前所未有的累积极端事件尚不清楚。全球变暖路径将比前工业化温度高出2.7℃），在22670 cd m^-2的高亮度下仍保持10.5%的外量子效率。河流洪水、农作物歉收、在纯红色钙钛矿LED（PeLEDs）中同时实现高亮度和高效率是一个持续的目标。该工作展示了一种增加高强度铝合金抗HE的可能途径，须保留本网站注明的“来源”，请与我们接洽。