Featured
-
-
Article
| Open AccessCollective relational inference for learning heterogeneous interactions
Heterogeneous interactions between interactive entities are not well understood due to their complex configurations and many body interactions. Han et al. present a probabilistic-based machine learning method to discover the fundamental laws governing the interactions of heterogeneous systems.
- Zhichao Han
- , Olga Fink
- & David S. Kammer
-
Article
| Open AccessBright, efficient, and stable pure-green hyperfluorescent organic light-emitting diodes by judicious molecular design
The device performance of pure-green hyperfluorescent organic light-emitting diodes remains unsatisfactory. Here, the authors report multi-resonance emitters with extended π−conjugation or increased donor strength, resulting in bright, efficient and stable pure-green hyperfluorescent devices.
- Yi-Ting Lee
- , Chin-Yiu Chan
- & Chihaya Adachi
-
Article
| Open AccessTwo-dimensional lead halide perovskite lateral homojunctions enabled by phase pinning
Hong et al. report 2D perovskite lateral homojunction consists of ordered and disordered phases, achieved by organic cation doping induced phase pinning, built upon which they develop tuneable optical properties under external stimuli and directional exciton diffusion in the homojunctions.
- Huilong Hong
- , Songhao Guo
- & Yongping Fu
-
Article
| Open AccessViolation of emergent rotational symmetry in the hexagonal Kagome superconductor CsV
3 Sb5 Superconductors with hexagonal symmetry are expected to be isotropic particularly near the critical temperature Tc, a property called emergent rotational symmetry (ERS). Here, the authors use calorimetry to study the hexagonal kagome superconductor CsV3Sb5 and find a violation of the expected ERS, hinting at realization of exotic superconductivity.
- Kazumi Fukushima
- , Keito Obata
- & Shingo Yonezawa
-
Article
| Open AccessBeyond nothingness in the formation and functional relevance of voids in polymer films
Voids are known to impact the properties of materials, but the nanovoids also present are less well understood than macroscopic voids. Here, the authors utilise 3D imaging and graph theory to study nanovoid formation and impact on material properties.
- Falon C. Kalutantirige
- , Jinlong He
- & Qian Chen
-
Article
| Open AccessRoom-temperature quantum emission from interface excitons in mixed-dimensional heterostructures
Interlayer excitons in 2D homo- and heterostructures have been intensively investigated due to their emerging optical properties. Here, the authors report the observation of interface excitons in 1D/2D carbon nanotube/WSe2 heterostructures, showing evidence of photon antibunching at room temperature.
- N. Fang
- , Y. R. Chang
- & Y. K. Kato
-
Article
| Open AccessMultiscale architecture design of 3D printed biodegradable Zn-based porous scaffolds for immunomodulatory osteogenesis
Rapid degradation inducing overdose toxicity remains challenging in porous biodegradable bone scaffolds. Here the authors present multiscale architecture design on ZnLi scaffolds with 90% porosity orchestrates immune responses and subsequent bone regeneration.
- Shuang Li
- , Hongtao Yang
- & Yufeng Zheng
-
Article
| Open AccessControlled condensation by liquid contact-induced adaptations of molecular conformations in self-assembled monolayers
Surface condensation is predetermined and is typically adjusted by chemical or topographical surface modification. Here, the authors report on a strategy to control the surface condensation behavior by adjusting molecular conformations in self-assembled monolayers.
- Guoying Bai
- , Haiyan Zhang
- & Yufeng Liu
-
Article
| Open AccessA terahertz meta-sensor array for 2D strain mapping
The researchers showcase a flexible meta-sensor array based on classical Mie resonance, enabling precise detection of in-plane strain direction and magnitude using dynamically transmitted terahertz (THz) signals. The sensor array holds immense promise for the real-life applications as it possesses high sensor density and has a very large size up to (110 ×130 mm2).
- Xueguang Lu
- , Feilong Zhang
- & Qiang Cheng
-
Article
| Open AccessPrecision ion separation via self-assembled channels
Selective nanofiltration membranes with accurate molecular sieving offer a solution to recover rare metals and other valuable elements from brines but this demands the development of membranes with precise sub-nanometer pores surpassing those available today. Here, the authors report a scalable approach for membrane fabrication in which functionalized macrocycles are seamlessly oriented via supramolecular interactions during the interfacial polycondensation on a polyacrylonitrile support layer.
- Shanshan Hong
- , Maria Di Vincenzo
- & Suzana P. Nunes
-
Article
| Open AccessA facile one step route that introduces functionality to polymer powders for laser sintering
Polyamide-12 is the main polymer employed to produce 3D objects by laser sintering constraining the functionality of the items produced. Here, the authors report a clean and scalable approach for the functionalization of polyamide-12 particles, yielding materials that can be printed using commercial apparatus.
- Eduards Krumins
- , Liam A. Crawford
- & Steven M. Howdle
-
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
-
Article
| Open AccessStrain-insensitive viscoelastic perovskite film for intrinsically stretchable neuromorphic vision-adaptive transistors
Wearable neuromorphic optoelectronics require stretchable photosensitive materials and multifunctional integration. Here, authors develop intrinsically stretchable neuromorphic vision-adaptive transistors for skin-like neuromorphic vision systems.
- Chengyu Wang
- , Yangshuang Bian
- & Yunlong Guo
-
Article
| Open AccessThermally stable Ni foam-supported inverse CeAlOx/Ni ensemble as an active structured catalyst for CO2 hydrogenation to methane
An inverse CeAlOx/Ni/Ni-foam structured catalyst with high thermal stability and water resistance is shown to be effective at CO2 methanation across a wide temperature range because of efficient heat/mass transport.
- Xin Tang
- , Chuqiao Song
- & Lili Lin
-
Article
| Open AccessManipulating the diffusion energy barrier at the lithium metal electrolyte interface for dendrite-free long-life batteries
Constructing an artificial solid electrolyte interphase to protect the lithium metal electrode is promising but challenging. Here, authors report a facile approach to form a layer to simultaneously overcome diffusion and advection-limited ion transport to achieve dendrite-free Li plating/stripping.
- Jyotshna Pokharel
- , Arthur Cresce
- & Yue Zhou
-
Article
| Open AccessThe nature of non-phononic excitations in disordered systems
The frequency scaling exponent of low-frequency vibrational excitations in glasses remains controversial in the literature. Here, Schirmacher et al. show that the exponent depends on the statistics of the small values of the local stresses, which is governed by the detail of interaction potential.
- Walter Schirmacher
- , Matteo Paoluzzi
- & Giancarlo Ruocco
-
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
-
Article
| Open AccessImpact of molecular symmetry on crystallization pathways in highly supersaturated KH2PO4 solutions
The molecular symmetry of solute structure in aqueous solutions is a key clue to understand Ostwald’s step rule. Here, the authors show that molecular symmetry and its structural evolution can govern the crystallization pathways in aqueous solutions.
- Yong Chan Cho
- , Sooheyong Lee
- & Geun Woo Lee
-
Article
| Open AccessLow-nuclearity CuZn ensembles on ZnZrOx catalyze methanol synthesis from CO2
The ideal metal selection and atomic-level arrangement for catalysts in CO2 hydrogenation are still uncertain. Here, copper is identified as the most effective promoter for enhancing ZnZrOx catalysts when precisely structured into CuZn ensembles, offering new insights for designing superior catalysts for CO2-based methanol synthesis.
- Thaylan Pinheiro Araújo
- , Georgios Giannakakis
- & Javier Pérez-Ramírez
-
Article
| Open AccessThe fluidic memristor as a collective phenomenon in elastohydrodynamic networks
Collective behavior of nonlinear soft valves forming fluid flow networks is not well understood. The authors reveal the mechanisms underlying the collective behavior of soft flow networks with negative differential resistance elements.
- Alejandro Martínez-Calvo
- , Matthew D. Biviano
- & Miguel Ruiz-García
-
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
-
Article
| Open AccessLayer-by-layer phase transformation in Ti3O5 revealed by machine-learning molecular dynamics simulations
Reconstructive phase transitions in materials are usually slow due to large activation energy barriers. Here, the authors show a kinetically favorable layer-by-layer mechanism in Ti3O5 transformations using machine-learning molecular dynamics simulations.
- Mingfeng Liu
- , Jiantao Wang
- & Xing-Qiu Chen
-
Article
| Open AccessMultilevel design and construction in nanomembrane rolling for three-dimensional angle-sensitive photodetection
Zhang et al. report a quasistatic multilevel finite element model to predict the 3D structures assembled by 2D nanomembranes, validated by large-scale, high-yield, and configurable fabrication. 3D Si/Cr photodetectors assisted by neural network are employed to resolve the incident light angle.
- Ziyu Zhang
- , Binmin Wu
- & Yongfeng Mei
-
Article
| Open AccessEnabling robust blue circularly polarized organic afterglow through self-confining isolated chiral chromophore
The preparation of systems that give blue circularly polarised organic afterglow is desirable but challenging. Here, the authors confine a chiral chromophore within a polymer matrix to limit non-radiative transitions and give blue circularly polarised organic afterglow.
- Mingjian Zeng
- , Weiguang Wang
- & Wei Huang
-
Article
| Open AccessVapor-induced phase-separation-enabled versatile direct ink writing
The extrusion-based three-dimensional printing of polymers, metals, and composites requires elevated temperatures and may lead to diverse undesirable defects on printed parts. Here, the authors develop a vapor-induced phase separation printing technique to construct polymeric, metallic, and composite parts by using a polymer as a binder.
- Marc Sole-Gras
- , Bing Ren
- & Yong Huang
-
Article
| Open AccessHighly robust supramolecular polymer networks crosslinked by a tiny amount of metallacycles
Supramolecular polymeric materials have exhibited attractive features such as self-healing, reversibility and stimuli-responsiveness but because of the weak bonding nature of most noncovalent interactions, constructing supramolecular polymer materials with high robustness remains challenging. Here, the authors describe the construction of highly robust stimuli-responsive supramolecular polymer networks by using only a tiny amount of metallacycles as the supramolecular crosslinkers.
- Lang He
- , Yu Jiang
- & Shijun Li
-
Article
| Open AccessSurface oxidation/spin state determines oxygen evolution reaction activity of cobalt-based catalysts in acidic environment
Co-based catalysts are promising candidates for oxygen evolution reaction catalysis in an acidic environment, but the structure-activity relationship is unclear. Here, the authors discover that their acidic water oxidation activity is determined by the surface oxidation/spin state.
- Jinzhen Huang
- , Camelia Nicoleta Borca
- & Emiliana Fabbri
-
Article
| Open AccessObservation of spatiotemporal optical vortices enabled by symmetry-breaking slanted nanograting
A microscale platform composed of a slanted nanograting is experimentally demonstrated to efficiently generate spatiotemporal optical vortex. This approach paves the way towards an integrated system for ultrafast pulse shaping.
- Pengcheng Huo
- , Wei Chen
- & Ting Xu
-
Article
| Open AccessA 2D chiral microcavity based on apparent circular dichroism
Here the authors induce asymmetric transmission in planar Fabry–Pérot microcavities by embedding organic thin films exhibiting apparent circular dichroism (ACD), an optical phenomenon based on 2D chirality.
- Tzu-Ling Chen
- , Andrew Salij
- & Randall H. Goldsmith
-
Article
| Open AccessKinetically controlled metal-elastomer nanophases for environmentally resilient stretchable electronics
Metal-elastomer nanophases are critical for stretchable electronics but face mixing challenges. This study introduces a kinetic method for precise mixing, yielding gyrified nanophases with improved durability and strain-invariant conductivity, which holds promise for resilient stretchable devices.
- Soosang Chae
- , Won Jin Choi
- & Tae Il Lee
-
Article
| Open AccessFine-tuning the pore environment of ultramicroporous three-dimensional covalent organic frameworks for efficient one-step ethylene purification
The construction of three-dimensional covalent organic frameworks for gas separation is challenging due to the similar physicochemical properties of the gas mixture. Here, the authors report functional three-dimensional covalent organic frameworks by fine-tunning the pore environment with pyridine units to achieve effective separation of ethane from ethylene.
- Yang Xie
- , Wenjing Wang
- & Cheng Wang
-
Article
| Open AccessMechanism of DNA origami folding elucidated by mesoscopic simulations
The self-assembly process of DNA nanostructures is still not well understood, especially for DNA origami. Here, the authors present a mesoscopic model that uses a switchable force field to capture the mechanical behavior of single- and double-stranded DNA motifs and transition between them, allowing access to the long assembly timescales of DNA origami up to several kilobases in size.
- Marcello DeLuca
- , Daniel Duke
- & Gaurav Arya
-
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
-
Article
| Open AccessNonlinear optical diode effect in a magnetic Weyl semimetal
Here the authors demonstrate a broadband nonlinear optical diode effect and its electric control in the magnetic Weyl semimetal CeAlSi. Their findings advance ongoing research to identify novel optical phenomena in topological materials.
- Christian Tzschaschel
- , Jian-Xiang Qiu
- & Su-Yang Xu
-
Article
| Open AccessUltrafast piezocapacitive soft pressure sensors with over 10 kHz bandwidth via bonded microstructured interfaces
Piezocapacitive pressure sensors are typically limited by the slow response-relaxation speed for detecting dynamic stimuli. Here, Zhang et al. utilize the electrode-dielectric interface and bonded micro-structured interface for energy dissipation and reduce the response and relaxation time to 0.04 ms.
- Yuan Zhang
- , Xiaomeng Zhou
- & Chuan Fei Guo
-
Article
| Open AccessClosed-loop recycling of sulfur-rich polymers with tunable properties spanning thermoplastics, elastomers, and vitrimers
Sulfur-rich polymers are promising candidates for chemical recycling but lack efficient synthetic strategies for achieving diverse structures. Here, the authors report a synthesis strategy for polytrithiocarbonates which is compatible with a wide range of monomers enabling diverse structures via polycondensation of dithiols and dimethyl trithiocarbonate.
- Jin-Zhuo Zhao
- , Tian-Jun Yue
- & Wei-Min Ren
-
Article
| Open AccessFerrielectricity controlled widely-tunable magnetoelectric coupling in van der Waals multiferroics
Two-dimensional multiferroics with effective magnetoelectric coupling has not been realized. Here, the authors find a magnetoelectric coupling mechanism in two-dimensional CuCrP2S6 interlocked with heterogeneous ferrielectric state.
- Qifeng Hu
- , Yuqiang Huang
- & Yi Zheng
-
Article
| Open AccessWater-assisted oxidative redispersion of Cu particles through formation of Cu hydroxide at room temperature
Redispersion of sintered metal species requires high temperatures in reactive atmospheres. Here, the authors report room temperature redispersion of supported Cu particles via formation of mobile hydroxylated Cu species induced by gaseous H2O and anchoring of the Cu species by surface OH groups.
- Yamei Fan
- , Rongtan Li
- & Qiang Fu
-
Article
| Open AccessExciton engineering of 2D Ruddlesden–Popper perovskites by synergistically tuning the intra and interlayer structures
Guo et al. report enhanced emission and photoconductivity in 2D Ruddlesden-Popper perovskites by synergistically tuning the intra and interlayer structure via pressure. A structure descriptor considering both intra- and interlayer is then introduced for screening perovskite with desired properties.
- Songhao Guo
- , Willa Mihalyi-Koch
- & Xujie Lü
-
Article
| Open AccessPushing thermal conductivity to its lower limit in crystals with simple structures
The pursuit of materials with low heat conductivity is vital for numerous applications. Here, the authors find AgTlI2 show low heat conductivity of 0.25 W/mK at room temperature, discussing its thermal transport mechanisms.
- Zezhu Zeng
- , Xingchen Shen
- & Yue Chen
-
Article
| Open AccessEssential role of lattice oxygen in hydrogen sensing reaction
Understanding the sensing mechanism of metal oxide semiconductors is imperative for developing high-performance sensors. Here, the participation of lattice oxygen, caused by additional Ge, boosts the hydrogen sensing ability of SnO2.
- Jiayu Li
- , Wenzhe Si
- & Guo-Dong Li
-
Article
| Open AccessElectron paramagnetic resonance as a tool to determine the sodium charge storage mechanism of hard carbon
Hard carbons are considered the most suitable negative electrode materials for Na-ion batteries. Here, authors use electron paramagnetic resonance spectroscopy to determine the spin nature of mechanochemically-modified hard carbons to predict their charge storage mechanism for sodium-ion batteries.
- Bin Wang
- , Jack R. Fitzpatrick
- & Nuria Tapia-Ruiz
-
Article
| Open AccessLight-induced giant enhancement of nonreciprocal transport at KTaO3-based interfaces
Optical control is an alternative pathway to boost nonlinear transport in noncentrosymmetric systems. Here, the authors observe a light-induced giant enhancement of nonreciprocal transport coefficient as high as 105 A−1 T−1 at KTaO3-based Rashba interfaces.
- Xu Zhang
- , Tongshuai Zhu
- & Xuefeng Wang
-
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
-
Article
| Open AccessArtificial kagome lattices of Shockley surface states patterned by halogen hydrogen-bonded organic frameworks
By utilizing the templating effect of a halogen hydrogen-bonded organic framework, the authors show that the Shockley surface states of coinage metals can be patterned into artificial kagome lattices with high tunability.
- Ruoting Yin
- , Xiang Zhu
- & Bing Wang
-
Article
| Open AccessAsymmetric magnetization switching and programmable complete Boolean logic enabled by long-range intralayer Dzyaloshinskii-Moriya interaction
The authors find a magnetization switching mechanism and the long-range intralayer Dzyaloshinskii-Moriya interaction effect, which enables asymmetric magnetization switching and complete Boolean logic operations.
- Qianbiao Liu
- , Long Liu
- & Lijun Zhu
-
Article
| Open AccessModified t-butyl in tetradentate platinum (II) complexes enables exceptional lifetime for blue-phosphorescent organic light-emitting diodes
It has been challenging to realize efficient and stable blue phosphorescent organic light-emitting diodes. Here, authors explore the effect of substitution position in platinum(II) dopants with suppressed metal-metal-to-ligand charge transfer features, resulting in prolonged lifetime in the devices.
- Young Hun Jung
- , Gyeong Seok Lee
- & Jang Hyuk Kwon
-
Article
| Open AccessLigand-modified nanoparticle surfaces influence CO electroreduction selectivity
Enhancing the kinetics and selectivity of CO2/CO electroreduction towards valuable multi-carbon products poses a scientific challenge and is imperative for practical applicability. Here the authors report that modifying copper catalysts with surface thiol ligands significantly improves acetate selectivity.
- Erfan Shirzadi
- , Qiu Jin
- & Edward H. Sargent
-
Article
| Open AccessOvercoming low initial coulombic efficiencies of Si anodes through prelithiation in all-solid-state batteries
All-solid-state batteries with silicon anodes have high capacities but low initial coulombic efficiencies (ICEs) because of first cycle irreversible capacity loss. Here, the authors report a prelithiation strategy to improve ICEs and reversibility.
- So-Yeon Ham
- , Elias Sebti
- & Ying Shirley Meng