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| Open AccessElastic strain-induced amorphization in high-entropy alloys
Lattice stability related to the structural response is the basis for understanding mechanical and physical behavior of crystalline solids. Here, the authors show a manifestation of elastic instability in high-entropy alloys via elastic strain induced amorphization.
- Yeqiang Bu
- , Yuan Wu
- & Wei Yang
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Article
| Open AccessSupramolecular metallic foams with ultrahigh specific strength and sustainable recyclability
Porous materials with high strength are desirable for many applications. Here, the authors present a supramolecular metallic foam enabled by nanostructured liquid metals connected with high-density metal-ligand coordination to exhibit ultrahigh specific strength and recyclability.
- Xin Yang
- , Xin Huang
- & Xinxing Zhang
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Article
| Open AccessLow-frequency conductivity of low wear high-entropy alloys
The transport behavior of high-entropy alloys (HEAs) remains unclear. Here, the authors explore the fundamentals of low-wear and high-conductivity refractory HEAs, examining the cocktail effect in conductivity, and highlight its potential applications in enhancing atomic-scale image resolution.
- Cheng-Hsien Yeh
- , Wen-Dung Hsu
- & Chuan-Feng Shih
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| Open AccessRevealing the hidden structure of disordered materials by parameterizing their local structural manifold
The structure of crystalline materials plays a central role in materials science, but the disordered structure of metallic glass is difficult to characterize and describe. Here, the authors use diffusion maps on atomistic data to obtain general structural descriptors tied to atomic positions.
- Thomas J. Hardin
- , Michael Chandross
- & Michael D. Shields
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Article
| Open AccessEmergent disorder and mechanical memory in periodic metamaterials
Frustrated magnetic systems typically have multiple ground state configurations. While such multistability is common in amorphous materials, periodic mechanical systems have long range elastic interactions that tend to lead to a long-range ordered ground state. Herein, Sirote-Katz, Shohat et al. introduce periodic mechanical systems that have many disordered metastable states.
- Chaviva Sirote-Katz
- , Dor Shohat
- & Yair Shokef
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Article
| Open AccessSuperlative mechanical energy absorbing efficiency discovered through self-driving lab-human partnership
It is challenging to design tough structures based on energy absorbing efficiency owing to the difficulties in modeling non-linear deformation. Here, the authors report a human-monitored self-driving lab and discover structural motifs with high energy absorbing efficiencies up to 75.2%.
- Kelsey L. Snapp
- , Benjamin Verdier
- & Keith A. Brown
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Article
| Open AccessThe role of microstructure in the thermal fatigue of solder joints
Thermal fatigue frequently leads to failure in electronic solder joints. Here, the authors measure and quantitatively explain how microstructure affects thermal fatigue in a ball grid array package and propose optimum microstructures for thermal fatigue resistance.
- J. W. Xian
- , Y. L. Xu
- & C. M. Gourlay
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Article
| Open AccessThe origin of exceptionally large ductility in molybdenum alloys dispersed with irregular-shaped La2O3 nano-particles
Application of Molybdenum alloys is hindered by reduced ductility at lower temperatures. Here, the author shows improved ductility in a Mo alloy with irregular-shaped rare-earth La2O3 nanoparticles achieved via rotary-swaging, attributed to the amorphization of the oxide-matrix interface.
- Yujie Chen
- , Yan Fang
- & Qian Yu
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Article
| Open AccessOvercoming strength-ductility tradeoff with high pressure thermal treatment
Conventional material processing methods often suffer by strength-ductility trade-off. Here, the authors show high-pressure and high-temperature treatment can transform an eutectic high entropy alloy to having a hierarchical microstructure with simultaneous enhancements of strength and ductility.
- Yao Tang
- , Haikuo Wang
- & Haofei Zhou
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Article
| Open AccessNeural network kinetics for exploring diffusion multiplicity and chemical ordering in compositionally complex materials
The inherent chemical complexity in compositionally complex materials present a challenge in studying atomic diffusion. Here, the authors introduce a neural network kinetics scheme to effectively address this issue and reveal anomalous diffusion behavior in complex concentrated alloys.
- Bin Xing
- , Timothy J. Rupert
- & Penghui Cao
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Article
| Open AccessFrom creep to flow: Granular materials under cyclic shear
Granular materials exhibit yielding behaviors rather different from glasses that can be elastic. Here, Yuan et al. show a cross-over from creep to diffusive dynamics in three-dimensional granular systems under cyclic shear and that the relaxation process depends on the roughness of the constituent particles.
- Ye Yuan
- , Zhikun Zeng
- & Yujie Wang
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Article
| Open AccessRadiative cooling and indoor light management enabled by a transparent and self-cleaning polymer-based metamaterial
Transparent roofs offer a solution for harnessing natural light in sustainable buildings. Here, authors demonstrate a polymer-based metamaterial with micro-pyramid surface structures that diffuses sunlight while offering passive cooling and self-cleaning properties.
- Gan Huang
- , Ashok R. Yengannagari
- & Bryce S. Richards
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Article
| Open AccessLow-index mesoscopic surface reconstructions of Au surfaces using Bayesian force fields
Metal surfaces have long been known to reconstruct, but key mechanistic aspects are poorly understood. Here, the authors use Bayesian force fields to gain insights into gold surface reconstructions that are crucial for material science and catalysis.
- Cameron J. Owen
- , Yu Xie
- & Boris Kozinsky
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Article
| Open AccessCharge density waves tuned by biaxial tensile stress
Previous studies of the effects of strain on charge density waves have mostly focused on uniaxial strain. Here the authors use a biaxial-strain device to demonstrate switching of the charge density wave orientation, as well as a strong linear increase of the transition temperature while the gap seems to saturate.
- A. Gallo–Frantz
- , V. L. R. Jacques
- & D. Le Bolloc’h
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Perspective
| Open AccessMaterials design for hypersonics
Hypersonic vehicles experience extreme temperatures, high heat fluxes, and aggressive oxidizing environments. Here, the authors highlight key materials design principles for critical vehicle areas and strategies for advancing laboratory-scale materials to flight-ready components.
- Adam B. Peters
- , Dajie Zhang
- & Suhas Eswarappa Prameela
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Article
| Open AccessPowder-size driven facile microstructure control in powder-fusion metal additive manufacturing processes
Achieving facile grain microstructure control in metal additive manufacturing is essential for its advancement. Here, the authors present a powder-size driven melt pool engineering approach to control the grain morphology demonstrated by laser directed energy deposition and electron beam powder-bed fusion processes.
- Shubham Chandra
- , Chengcheng Wang
- & Xipeng Tan
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Article
| Open AccessZero modes activation to reconcile floppiness, rigidity, and multistability into an all-in-one class of reprogrammable metamaterials
Floppiness, rigidity, and multi-stability often represent inherently contradictory macroscopic properties in solids. Here, authors introduce an all-in-one metamaterial that capitalizes on local state transitions to harmonize these divergent properties within a single transformable architecture.
- Lei Wu
- & Damiano Pasini
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Article
| Open AccessRadionuclide tracing based in situ corrosion and mass transport monitoring of 316L stainless steel in a molten salt closed loop
In situ corrosion monitoring is essential to unveil corrosion mechanisms and safeguard materials’ health. Here, the authors develop a radionuclide tracing based in situ corrosion monitoring technique that can monitor corrosion attack depth and corrosion product transport in flowing molten salts.
- Yafei Wang
- , Aeli P. Olson
- & Adrien Couet
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Article
| Open AccessWide field-of-hearing metalens for aberration-free sound capture
Achieving a wide angular response in single layer acoustic metalenses is challenging. By leveraging perfect acoustic symmetry conversion, the authors realize an aberration free metalens with a wide field-of-hearing, up to 140 degrees.
- Dongwoo Lee
- , Beomseok Oh
- & Junsuk Rho
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Article
| Open AccessIn situ observation of the atomic shuffles during the {\({{11}}\bar{{{2}}}{{1}}\)} twinning in hexagonal close-packed rhenium
Atomic shuffles are important phenomena accompanying the twinning in hexagonal close-packed crystals, but the direct experimental observation on it is lacking. Here, the authors show the shuffling mechanism of {112 ̅1} twinning in rhenium nanocrystals by in situ transmission electron microscopy.
- Yang He
- , Zhengwu Fang
- & Scott X. Mao
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Article
| Open AccessUltrastiff metamaterials generated through a multilayer strategy and topology optimization
High-performance mechanical metamaterials have been designed through a multilayer strategy and topology optimization, showing capability in approaching the theoretical stiffness limit, as well as prospects in treating multiphysics problems
- Yang Liu
- , Yongzhen Wang
- & Jianbin Du
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Article
| Open AccessMolecular insight into the initial hydration of tricalcium aluminate
The hydration of tricalcium aluminate is an important initial step in the structural build-up of Portland cement. Here the authors use ab initio and accelerated dynamics to describe the reactions and dynamics of this process at the molecular level.
- Xing Ming
- , Wen Si
- & Zongjin Li
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Article
| Open AccessGradient matters via filament diameter-adjustable 3D printing
Direct ink writing of complex 3D gradient structures can be challenging due to inherent method limitations. Here, the authors report continuous diameter-adjustable filament by varying printing speed and height and enable extrusion 3D printers to produce complex gradient porous matters.
- Huawei Qu
- , Chongjian Gao
- & Changshun Ruan
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Article
| Open AccessOne-photon three-dimensional printed fused silica glass with sub-micron features
3D-printed glass holds great potential. However, it is challenging to control both the dimension and the resolution of the printed material. Here, authors present a one-photon 3D printing approach to produce high-performance fused silica glass with sub-micron resolution and millimetric dimensions.
- Ziyong Li
- , Yanwen Jia
- & Xiewen Wen
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Article
| Open AccessDeep-potential enabled multiscale simulation of gallium nitride devices on boron arsenide cooling substrates
Efficient heat dissipation is critical to optimize high-power devices. Here, the authors report high interfacial thermal conductance in GaN-BAs heterostructures and investigate the competition between grain size and boundary resistance by multiscale simulations.
- Jing Wu
- , E Zhou
- & Guangzhao Qin
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Article
| Open AccessProgramming mechanics in knitted materials, stitch by stitch
Knitted fabrics are prized for their stretchability, breathability, and long-wearability in everyday life. This study combines experiments and simulations to present a micromechanical approach to understanding the origin of the anisotropic elasticity of four canonical patterns of knitted fabrics.
- Krishma Singal
- , Michael S. Dimitriyev
- & Elisabetta A. Matsumoto
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Article
| Open AccessLarge-scale modular and uniformly thick origami-inspired adaptable and load-carrying structures
In this work, authors establish general conditions for flat foldability, developability, and uniform thickness in origami-inspired structures and introduce a large-scale modular design capable of deploying into meter-scale configurations, adapting to various shapes, and supporting significant loads.
- Yi Zhu
- & Evgueni T. Filipov
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Article
| Open AccessElectrothermally controlled origami fabricated by 4D printing of continuous fiber-reinforced composites
Effective active origami capable of on-demand modulation are limited by challenges such as limited load-bearing capacity and transformable states. Here, authors report fiber-reinforced composites for controlled electrothermal origami with excellent mechanical performance and spatiotemporal controllability.
- Yaohui Wang
- , Haitao Ye
- & Yi Xiong
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Article
| Open AccessFloat-stacked graphene–PMMA laminate
To maximize composite reinforcing efficiency, a semi-infinite reinforcement should be aligned in the matrix. Here, the authors report a float-stacking strategy for graphene-PMMA laminate with precisely aligned monolayer graphene in a polymer matrix.
- Seung-Il Kim
- , Ji-Yun Moon
- & Jae-Hyun Lee
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Article
| Open AccessTwisted moiré conductive thermal metasurface
Authors control heat transfer through twisting moiré conductive thermal metasurface, showcasing the potential for manipulating thermal conductivity and temperature gradients with imitated magic angles, thereby realizing multifunctional thermal metadevices.
- Huagen Li
- , Dong Wang
- & Cheng-Wei Qiu
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Article
| Open AccessEffect of inorganic material surface chemistry on structures and fracture behaviours of epoxy resin
The mechanisms of adhesion between polymers and inorganic materials are not fully understood. Here, authors demonstrate the clear evidence that the surface chemistry impacts the crosslinked structures of resins near the interfaces, resulting in different fracture behaviours and adhesive strengths.
- Tomohiro Miyata
- , Yohei K. Sato
- & Hiroshi Jinnai
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Article
| Open AccessWood-inspired metamaterial catalyst for robust and high-throughput water purification
Continuous industrialization and human activities have led to severe water quality deterioration. Here, a structure-function integrated system is developed by Douglas fir wood inspired metamaterial catalysts with robust and high throughput water purification performances.
- Lei Zhang
- , Hanwen Liu
- & Jian Lu
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Article
| Open AccessSimultaneous enhancement of strength and conductivity via self-assembled lamellar architecture
Simultaneous increase of mechanical and physical properties is highly desirable, but challenging for bimetallic materials. Here, the authors use W-Cu as an example to achieve both high strength and conductivity of the bimetal with a large plasticity by a self-assembled lamellar architecture.
- Tielong Han
- , Chao Hou
- & Xiaoyan Song
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Article
| Open AccessAmorphous alloys surpass E/10 strength limit at extreme strain rates
Magnitude of the ideal strength achievable in experiments for metals remains to be known. Here, the authors show that the spall strength of Cu50Zr50 amorphous alloy exceeds the E/10 limit at extreme strain rates, showing the void nucleation and growth as the primary failure mechanism.
- Wenqing Zhu
- , Zhi Li
- & Xiaoding Wei
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Article
| Open AccessIntrinsic factors responsible for brittle versus ductile nature of refractory high-entropy alloys
Poor ductility is a major drawback of otherwise promising refractory high-entropy alloys (RHEAs) for ultrahigh temperature applications. Here, the authors show how ductility can be enhanced by adding HCP elements to BCC RHEAs, which is a relatively simple way to optimize mechanical properties.
- Tomohito Tsuru
- , Shu Han
- & Haruyuki Inui
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Article
| Open AccessPore evolution mechanisms during directed energy deposition additive manufacturing
Porosity is a key issue in additive manufacturing (AM). Here, the authors reveal the bubble evolution mechanisms including formation, coalescence, pushing, growth, entrainment, escape, and entrapment during directed energy deposition AM using in situ X-ray imaging and multiphysics modelling.
- Kai Zhang
- , Yunhui Chen
- & Peter D. Lee
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Article
| Open AccessElasticity-controlled jamming criticality in soft composite solids
Soft composite solids are building blocks for many functional and biological materials, yet it remains challenging to predict their mechanical properties. Zhao et al. propose a criticality framework to connect the mechanics to the critical behaviour near the shear-jamming transition of the dispersed inclusions.
- Yiqiu Zhao
- , Haitao Hu
- & Qin Xu
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Article
| Open AccessUltrathin, ultralight dual-scale fibrous networks with high-infrared transmittance for high-performance, comfortable and sustainable PM0.3 filter
Development of high-performance, comfortable and sustainable air filters is challenging. Here, authors design an ultrathin, ultralight dual scale fiber mat composed of true nanofibers and submicron-fibers to integrate the high protection, thermal wet comfort and save raw materials.
- Yuchen Yang
- , Xiangshun Li
- & Yuekun Lai
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Article
| Open AccessGeneral synthesis and atomic arrangement identification of ordered Bi–Pd intermetallics with tunable electrocatalytic CO2 reduction selectivity
Precise synthesis of Intermetallic compounds and understanding of the structure-performance correlation are highly desirable in catalysis. Here, the authors develop a general method to synthesize up to six BiPd intermetallic compounds and study the mechanism toward the electrocatalytic carbon dioxide reduction reaction.
- Wenjin Guo
- , Guangfang Li
- & Rong Chen
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Article
| Open AccessRejuvenation as the origin of planar defects in the CrCoNi medium entropy alloy
High and medium-entropy alloys have shown excellent mechanical performance, yet the role of short-range order (SRO) on these properties has been unclear. Here, the authors demonstrate that the reduction of SRO by deformation leads to rejuvenation, explaining their remarkable damage tolerance.
- Yang Yang
- , Sheng Yin
- & Andrew M. Minor
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Article
| Open AccessRipples in the bottom of the potential energy landscape of metallic glass
Little is known about how the states in glass are connected to each other. Here, the authors perform molecular dynamics simulation of relaxation in a prototypical metallic glass to show that the energy barriers separating these states are very low, and even be overcome by quantum fluctuations.
- Leo Zella
- , Jaeyun Moon
- & Takeshi Egami
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Article
| Open AccessUltrastrong and ductile steel welds achieved by fine interlocking microstructures with film-like retained austenite
Weld integrity and performance determine lifetime and safety of structures. Here, the authors report advances in weld quality of ultrahigh strength steels resulting from fine interlocking weld microstructures with film-like retained austenite by utilizing Nb and Cr instead of Ni.
- Joonoh Moon
- , Gyuyeol Bae
- & Dirk Ponge
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Article
| Open AccessManufacturing of high strength and high conductivity copper with laser powder bed fusion
Copper produced by laser additive manufacturing often faces challenges with either low strength or low conductivity. Here, the authors present a design strategy to introduce uniformly dispersed nanoprecipitates during solidification, enhancing the strength while maintaining high conductivity.
- Yingang Liu
- , Jingqi Zhang
- & Ming-Xing Zhang
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Article
| Open AccessPerfect circular polarization of elastic waves in solid media
The authors introduce a method for non-destructive testing based on circularly polarized ultrasound in solids, enabled by metamaterials, allows for detecting internal defects regardless of their orientation. This innovation will redefine ultrasonic non-destructive examination.
- Jeseung Lee
- , Minwoo “Joshua” Kweun
- & Yoon Young Kim
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Article
| Open AccessDiffusive kinks turn kirigami into machines
Kinks define boundaries between distinct configurations of a material. Here, the authors reveal the emergence of propagating kinks in purely dissipative kirigami and show that such structures can shape-change into different textures depending on how fast they are stretched enabling basic mechanical tasks.
- Shahram Janbaz
- & Corentin Coulais
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Article
| Open AccessElemental partitioning-mediated crystalline-to-amorphous phase transformation under quasi-static deformation
The transformation induced plasticity phenomenon is usually diffusionless. Here, the authors introduce elemental partitioning mediated crystalline-to-amorphous phase transformation in a crystal-glass nanolaminated composite, realizing ultrahigh strength and large plasticity.
- Ge Wu
- , Chang Liu
- & Zhi-Wei Shan
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Article
| Open AccessHydraulic-driven adaptable morphing active-cooling elastomer with bioinspired bicontinuous phases
Low thermal conduction and conformability of traditional rigid heat sinks limit their adoption in flexible electronics and soft robotics. Here, authors report a liquid metal skeleton-based active-cooling elastomer with high thermal conductivity, stretchability, and hydraulic-driven adaptable morphing.
- Dehai Yu
- , Zhonghao Wang
- & Zhizhu He
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Article
| Open AccessRapid synthesis of phosphor-glass composites in seconds based on particle self-stabilization
Phosphor-glass composites can serve as efficient and stable photonic converters, but their synthesis generally requires harsh and time-consuming procedures. Here, the authors report an alternative synthesis route that requires only a few seconds and is based on particle self-stabilization.
- Yongsheng Sun
- , Yuzhen Wang
- & Zhiguo Xia
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Article
| Open AccessAccurate additive manufacturing of lightweight and elastic carbons using plastic precursors
This work reports a simple method to produce 3D printed complex carbon materials with low dimensional shrinkage (<4%) from printed to carbonized state, using commercially available carbon fiber-reinforced polypropylene precursors and a fused filament fabrication-based process.
- Paul Smith
- , Jiayue Hu
- & Zhe Qiang