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| Open AccessMachine intelligence accelerated design of conductive MXene aerogels with programmable properties
Machine learning-assisted robots produce MXene aerogels containing cellulose, gelatin, and glutaraldehyde, fabricating 162 compositions. Inverse design from resulting properties affords tailored compression-stable materials for Joule heating.
- Snehi Shrestha
- , Kieran James Barvenik
- & Po-Yen Chen
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Article
| Open AccessRedox dynamics and surface structures of an active palladium catalyst during methane oxidation
Palladium-based catalysts are highly effective for the complete oxidation of methane. Here, the authors employ operando transmission electron microscopy, near-ambient pressure X-ray photoelectron spectroscopy, and density functional theory calculations to investigate the active state and catalytic function of Pd nanoparticles in methane oxidation.
- Shengnan Yue
- , C. S. Praveen
- & Xing Huang
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Article
| Open AccessNIR-II emissive anionic copper nanoclusters with intrinsic photoredox activity in single-electron transfer
Copper nanoclusters have so far been limited in the types of organic transformations they can catalyze. Here the authors introduce a new NIR-II emissive anionic copper nanocluster with intrinsic photoredox activity, enabling efficient photocatalytic three-component radical couplings.
- Li-Juan Liu
- , Mao-Mao Zhang
- & Jian He
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Article
| Open AccessLarge out-of-plane spin–orbit torque in topological Weyl semimetal TaIrTe4
Topological semimetals offer the potential for new-generation spintronic devices. Here, the authors demonstrate a large out-of-plane damping-like spin–orbit torque efficiency in a heterostructure based on the Weyl semimetal TaIrTe4.
- Lakhan Bainsla
- , Bing Zhao
- & Saroj P. Dash
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Article
| Open AccessCircular single-stranded DNA as a programmable vector for gene regulation in cell-free protein expression systems
Protein expression vectors in cell-free systems mainly rely on double-stranded DNA and single-stranded RNA. Here, authors use circular single-stranded DNA as a programmable vector for gene regulation in a cell-free expression system by identifying its expression pathways.
- Zhijin Tian
- , Dandan Shao
- & Jie Song
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Article
| Open AccessBroadband near-infrared emission in silicon waveguides
On-chip optical sensing and metrology systems are rapidly progressing, but CMOS-compatible silicon light sources remain a challenge. This work demonstrates a broadband, foundry integrated silicon waveguide emitter and the theory that describes it.
- Marcel W. Pruessner
- , Nathan F. Tyndall
- & Todd H. Stievater
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Article
| Open AccessA zinc oxide resonant nano-accelerometer with ultra-high sensitivity
The authors report a zinc oxide resonant nano-accelerometer with sensitivity up to 16.818 kHz/g, which is attributed to the nano-resonators using zinc oxide nanowires and the optimized microleverages and push-pull structures.
- Pengfei Xu
- , Dazhi Wang
- & Yan Cui
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Article
| Open AccessPhotoinduced dynamics during electronic transfer from narrow to wide bandgap layers in one-dimensional heterostructured materials
One-dimensional van der Waals heterostructures can realize atomically thin transistor junctions. Here, the authors study electron transfer in such layered structures using ultrafast diffraction and spectroscopy as well as theoretical simulations.
- Yuri Saida
- , Thomas Gauthier
- & Masaki Hada
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Article
| Open AccessActive ballistic orbital transport in Ni/Pt heterostructure
The authors observe THz emission from Ni/Pt heterostructure due to long-range ballistic orbital transport. The velocity of orbital current can be optically tuned by laser fluence, opening the avenue for future optorbitronic devices.
- Sobhan Subhra Mishra
- , James Lourembam
- & Ranjan Singh
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Article
| Open AccessA spatially localized DNA linear classifier for cancer diagnosis
Molecular computing is an emerging paradigm with a crucial role in clinical diagnosis. Here, authors develop a spatially localized, DNA-integrated circuits-based classifier, DNA IC-CLA, which enables accurate cancer diagnosis for clinical samples in a faster and more effective manner.
- Linlin Yang
- , Qian Tang
- & Da Han
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Article
| Open AccessUnderstanding how junction resistances impact the conduction mechanism in nano-networks
The electrical properties of nanostructured networks are often dominated by junctions between the particles. Here, Gabett et al. develop transport models and utilise impedance spectroscopy to quantify the factors limiting conduction in these systems.
- Cian Gabbett
- , Adam G. Kelly
- & Jonathan N. Coleman
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Article
| Open AccessReconfigurable image processing metasurfaces with phase-change materials
Researchers demonstrate that image-processing metasurfaces can be dynamically reconfigured by using phase-change materials. The work might lead to novel tunable devices for compact optical computing for applications in AR/VR and bio-medical imaging.
- Michele Cotrufo
- , Shaban B. Sulejman
- & Andrea Alù
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Article
| Open AccessNon-thermal emission in gap-mode plasmon photoluminescence
Photoluminescence from plasmonic nanostructures exhibits diverse wavelength dependent nonlinear behaviors with debated origins. Here, authors use plasmonic gap mode resonators with precise nanoscale confinement to show this nonlinear emission can become dominated by non-Fermi carrier contributions.
- Robert Lemasters
- , Manoj Manjare
- & Hayk Harutyunyan
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Article
| Open AccessTunnel junctions based on interfacial two dimensional ferroelectrics
The authors study tunneling junctions in rhombohedral MoS2 bilayers and correlate their performance with the local domain layout. They show that the switching behavior in sliding ferroelectrics is strongly dependent on the pre-existing domain structure.
- Yunze Gao
- , Astrid Weston
- & Roman Gorbachev
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Article
| Open AccessAn inorganic-blended p-type semiconductor with robust electrical and mechanical properties
The authors report an inorganic tellurium-selenium-oxygen (TeSeO) alloyed semiconductor for high-mobility p-channel transistors and broadband photodetectors, through the scalable thermal evaporation method combined with post-oxygen implantation.
- You Meng
- , Weijun Wang
- & Johnny C. Ho
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Article
| Open AccessSingle molecule delivery into living cells
Controlled manipulation of cultured cells by delivery of exogenous macromolecules is a cornerstone of experimental biology. Here, the authors describe a platform to deliver defined numbers of macromolecules into cultured cell lines at single molecule resolution.
- Chalmers C. Chau
- , Christopher M. Maffeo
- & Paolo Actis
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Article
| Open AccessHeat-activated growth of metastable and length-defined DNA fibers expands traditional polymer assembly
The combination of dynamic, energy driven folding and growth with structural stiffness and length control is difficult to achieve in synthetic polymer self-assembly. Here the authors show that highly charged, monodisperse DNA oligomers assemble via seeded growth into length-controlled supramolecular fibers during heating.
- Michael D. Dore
- , Muhammad Ghufran Rafique
- & Hanadi F. Sleiman
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Perspective
| Open AccessRediscovery of mononuclear phagocyte system blockade for nanoparticle drug delivery
Temporal blockade of the mononuclear phagocyte system is an approach to enhance the therapeutic efficiency of nanocarrier drug-delivery systems but the broad applicability is hindered by the complexity of optimisation and management of potential side effects. Here, the authors review the development of this technique and show its efficiency using meta-analysis of the published data and discuss essential features for its successful translation to clinic.
- Ivan V. Zelepukin
- , Konstantin G. Shevchenko
- & Sergey M. Deyev
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Article
| Open AccessGeneral synthesis of ionic-electronic coupled two-dimensional materials
2D AMX2 compounds (where A is a monovalent metal ion, M is a trivalent metal, and X is a chalcogen) are a family of materials with coupled ionic-electronic properties. Here, the authors report a chemical vapor deposition strategy to fabricate 20 types of 2D AMX2 flakes, exhibiting superionic conductivity or room temperature ferroelectricity.
- Xiang Xu
- , Yunxin Chen
- & Tianyou Zhai
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Article
| Open AccessElectrostatic-induced ion-confined partitioning in graphene nanolaminate membrane for breaking anion–cation co-transport to enhance desalination
Two-dimensional graphene-based membranes have gained much interest, but they suffer from poor rejection for monovalent salts. Here, the authors develop an electrostatic-induced ion partitioning strategy to suppress anion-cation transmembrane co-transport, improving the desalination performance.
- Haiguang Zhang
- , Jiajian Xing
- & Xie Quan
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Article
| Open AccessFiring feature-driven neural circuits with scalable memristive neurons for robotic obstacle avoidance
The authors proposed a strategy for sensorimotor control using memristive H-H neurons, integrating bio-inspired neural circuits and computational capabilities of neurons’ firing features with a robot for avoidance control.
- Yue Yang
- , Fangduo Zhu
- & Ming Liu
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Article
| Open AccessBounds to electron spin qubit variability for scalable CMOS architectures
Understanding the microscopic variability of CMOS spin qubits is crucial for developing scalable quantum processors. Here the authors report a combined experimental and numerical study of the effect of interface roughness on variability of quantum dot spin qubits formed at the Si/SiO2 interface.
- Jesús D. Cifuentes
- , Tuomo Tanttu
- & Andre Saraiva
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Article
| Open AccessBright and durable scintillation from colloidal quantum shells
Traditional scintillators face challenges in achieving fast response and avoiding afterglow. Guzelturk et al. report colloidal quantum shell heterostructures with bright multiexciton emission, enabling efficient, fast, and robust scintillation for high-resolution and high-speed X-ray imaging.
- Burak Guzelturk
- , Benjamin T. Diroll
- & Mikhail Zamkov
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Article
| Open AccessThermoelectric active cooling for transient hot spots in microprocessors
The authors model the transient temperature response of micro-thermoelectric devices with AC current applied, which is locally integrated under a transient hot spot. They develop a strategy for actively canceling the transient temperature variations.
- Yihan Liu
- , Hao-Yuan Cheng
- & Feng Xiong
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Article
| Open AccessCentimeter-scale nanomechanical resonators with low dissipation
Exploring new mechanics regime, researchers created centimeter-long, nanometer-thin resonators, achieving unmatched room temperature mechanical isolation via cutting edge nanoengineering and machine learning design; rivaling cryogenic counterparts.
- Andrea Cupertino
- , Dongil Shin
- & Richard A. Norte
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Article
| Open AccessEvidence for multiferroicity in single-layer CuCrSe2
The authors observe multiferroicity in a single-layer non van der Waals material, CuCrSe2. The coexistence of room-temperature ferroelectricity and ferromagnetism up to 120 K is corroborated by a set of comprehensive experimental techniques.
- Zhenyu Sun
- , Yueqi Su
- & Baojie Feng
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Article
| Open AccessElectric pulse-tuned piezotronic effect for interface engineering
Interface engineering by local polarization is becoming increasingly important for tunable electronics. Here, authors demonstrate an electric pulse-tuned piezotronic effect in Ag/HfO2/n-ZnO junction, enabling reversible and accurate regulation of barrier height and piezotronic modification range.
- Qiuhong Yu
- , Rui Ge
- & Yong Qin
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Article
| Open AccessTunable exciton valley-pseudospin orders in moiré superlattices
Control of correlated excitonic states is a key goal of modern optoelectronic physics. Here, the authors demonstrate filling- and field-tunable exciton valley-pseudospin orders in a moiré heterostructure.
- Richen Xiong
- , Samuel L. Brantly
- & Chenhao Jin
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Article
| Open AccessDynamically stable radiation pressure propulsion of flexible lightsails for interstellar exploration
Ultrathin laser-driven lightsails represent a unique vision for interstellar space exploration. Here, the authors show how spinning flexible membranes can be both shape- and trajectory-stable with multiphysics structural and nanophotonic engineering.
- Ramon Gao
- , Michael D. Kelzenberg
- & Harry A. Atwater
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Article
| Open AccessRemote epitaxy of single-crystal rhombohedral WS2 bilayers
Rhombohedral-stacked (R-stacked) transition metal dichalcogenide bilayers exhibit remarkable properties, but their large-area epitaxial growth remains challenging. Here, the authors report the remote epitaxy of centimetre-scale single-crystal R-stacked WS2 bilayer films on sapphire substrates.
- Chao Chang
- , Xiaowen Zhang
- & Xiaozhi Xu
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Article
| Open AccessDynamic microfluidic single-cell screening identifies pheno-tuning compounds to potentiate tuberculosis therapy
Tuberculosis is a major global health threat. Here, the authors develop a single-cell drug discovery approach and identify a compound that tunes bacterial phenotypic variation. This enhances the activity of anti-tubercular drugs against the pathogen.
- Maxime Mistretta
- , Mena Cimino
- & Giulia Manina
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Article
| Open AccessSpontaneously established reverse electric field to enhance the performance of triboelectric nanogenerators via improving Coulombic efficiency
Performance of triboelectric nanogenerators is limited by electrostatic breakdown. Here, the spontaneously established reverse electric field is introduced to restrict the side-discharge problem caused by electrostatic breakdown, leading to a high Coulombic efficiency and enhanced output power.
- Yikui Gao
- , Lixia He
- & Jie Wang
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Article
| Open AccessDual-phase nano-glass-hydrides overcome the strength-ductility trade-off and magnetocaloric bottlenecks of rare earth based amorphous alloys
Metals often suffer from reduced strength and ductility after hydrogenation. Here, the authors show hydrogenation can lead to enhancement in strength and ductility accompanied by a large change in magnetic entropy, overcoming the bottlenecks of using amorphous alloys for magnetic refrigerants.
- Liliang Shao
- , Qiang Luo
- & Weihua Wang
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Article
| Open AccessE-cardiac patch to sense and repair infarcted myocardium
Infarted myocardium hampers the synchronous electroactivity of the cardiac tissue. Here, the authors showcase a battery-free conductive cardiac patch made of reduced graphene and its therapeutic efficacy for cardiac repair.
- Renjie Qiu
- , Xingying Zhang
- & Leyu Wang
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Article
| Open AccessExperimental demonstration of an on-chip p-bit core based on stochastic magnetic tunnel junctions and 2D MoS2 transistors
Probabilistic bits (p-bits) are the base units of probabilistic computing, a computing scheme offering a more efficient approach than conventional binary logic in various applications. Here, the authors report the realization of a p-bit core device by combining stochastic magnetic tunnel junctions and 2D MoS2 transistors on the same chip.
- John Daniel
- , Zheng Sun
- & Joerg Appenzeller
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Article
| Open AccessMolecular fingerprinting of biological nanoparticles with a label-free optofluidic platform
Biosensing tools to detect multiple analytes in a high-throughput manner are still hindered by many limitations. Here, the authors present a label-free optofluidic platform integrating digital holography and microfluidics for analyte detection, allowing for the fingerprinting of heterogenous biological samples.
- Alexia Stollmann
- , Jose Garcia-Guirado
- & Romain Quidant
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Article
| Open AccessUltrastrong magnon-magnon coupling and chiral spin-texture control in a dipolar 3D multilayered artificial spin-vortex ice
Extending magnetic nanostructures into three dimensions offers a vast increase in potential functionalities, but this typically comes at the expense of ease of fabrication and measurement. Here, Dion et al. demonstrate an approach to creating three dimensional magnetic nanostructures while retaining easy fabrication and readout of established two dimensional approaches.
- Troy Dion
- , Kilian D. Stenning
- & Jack C. Gartside
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Article
| Open AccessSynergistic growth of nickel and platinum nanoparticles via exsolution and surface reaction
Utilizing “Chemistry at a point”, Ni is exsolved from a perovskite lattice under deposited Pt nanoparticles. This yields even smaller Ni Pt alloy nanoparticles on a perovskite nanofiber structure, exhibiting high catalytic activity.
- Min Xu
- , Yukwon Jeon
- & John T. S. Irvine
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Article
| Open AccessTuning instability in suspended monolayer 2D materials
Tuning the instabilities of 2D materials can control their wrinkling behavior for interesting physical properties, but still challenging. Here, the authors report a push-to-shear experimental approach to control the wrinkling patterns of monolayer 2D materials and measure their bending stiffness.
- Yuan Hou
- , Jingzhuo Zhou
- & Yang Lu
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Article
| Open AccessUltra-narrowband and rainbow-free mid-infrared thermal emitters enabled by a flat band design in distorted photonic lattices
Narrowband thermal emitters realized with photonic nanostructures usually suffer from the rainbow effect. Here, the authors demonstrate rainbow-free thermal emissions with high temporal coherence through harnessing flatband high-Q resonances.
- Kaili Sun
- , Yangjian Cai
- & Zhanghua Han
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Article
| Open AccessElectrochemical-repaired porous graphene membranes for precise ion-ion separation
The preparation of atom-thick lattices with Å-scale pores is desirable for achieving ion selectivity and high ion flux. Here authors present a cm-scale membrane made of atom-thick graphene film hosting zero-dimensional pores spanning only a few Å, repaired using an in situ electrochemical strategy, yielding high Li+/Mg2+ separation performance.
- Zongyao Zhou
- , Kangning Zhao
- & Kumar Varoon Agrawal
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Article
| Open AccessCavity-enhanced photon indistinguishability at room temperature and telecom wavelengths
Carbon nanotube-based single photon emitters allow for room-temperature operation, but suffer from vanishing indistinguishability due to strong dephasing. Following a theoretical proposal, the authors tackle the problem experimentally by using a cavity to enhance the photon coherence time and the emission spectral density in the regime of incoherent good cavity-coupling.
- Lukas Husel
- , Julian Trapp
- & Alexander Högele
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Article
| Open AccessFirefly-inspired bipolar information indication system actuated by white light
Inspired by fireflies, a bimodal information indication system using a photochemical afterglow material within a photonic crystal matrix is developed to display both static and changing information, such as sample type and degree of degradation.
- Hanwen Huang
- , Jiamiao Yin
- & Changchun Wang
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Article
| Open AccessHalide Perovskite Inducing Anomalous Nonvolatile Polarization in Poly(vinylidene fluoride)-based Flexible Nanocomposites
Wang et al. report large nonvolatile polarization in stretchable polymer ferroelectrics incorporating perovskite nanocrystals. The built-in electric field from poled ferroelectrics stabilises Frenkel defects via interfacial coupling, which can also enhance the polarization of nonferroelectrics.
- Yao Wang
- , Chen Huang
- & Jiangyu Li
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Article
| Open AccessSingle-photon detection using large-scale high-temperature MgB2 sensors at 20 K
Superconducting nanowire single-photon detectors require operation at T < 4 K, and successful attempts to extend their operation at 20 K and above using high-TC BSCCO flakes come at the cost of lower scalability to large areas. Here, the authors break this trade-off by using high-quality MgB2 films and exploiting a helium-ion beam-based irradiation process.
- Ilya Charaev
- , Emma K. Batson
- & Karl K. Berggren
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Matters Arising
| Open AccessTechnical challenges of studying the impact of plasma components on the efficacy of lipid nanoparticles for vaccine and therapeutic applications
- Jens B. Simonsen
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Article
| Open AccessBicontinuous RuO2 nanoreactors for acidic water oxidation
Developing stable water oxidation catalysts is of great importance for proton-exchange membrane water electrolyzers. Here the authors report a bicontinuous nanoreactor composed of multiscale defected RuO2 nanocrystals for robust acidic water oxidation reactivity.
- Ding Chen
- , Ruohan Yu
- & Shichun Mu
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Article
| Open AccessImplication of thermal signaling in neuronal differentiation revealed by manipulation and measurement of intracellular temperature
The role of subcellular thermogenesis during neuronal differentiation remains poorly understood. Here, the authors employ methods to monitor local intracellular temperature, and they investigate the effects of non-invasive temperature changes on cell differentiation using neuron-like cells.
- Shunsuke Chuma
- , Kazuyuki Kiyosue
- & Yoshie Harada
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Article
| Open AccessCorrelating activities and defects in (photo)electrocatalysts using in-situ multi-modal microscopic imaging
Physicochemical heterogeneity poses a significant constraint in photocatalyst advancement. Here the authors introduce a multimodal optical microscopy platform to assess activity and defects concurrently in photoelectrocatalysts, revealing that disorder can unexpectedly enhance local photoelectrocatalytic performance in certain instances.
- Camilo A. Mesa
- , Michael Sachs
- & Raj Pandya