Featured
-
-
Article
| Open AccessDefinitive engineering strength and fracture toughness of graphene through on-chip nanomechanics
Researchers used a fracture mechanics approach with on-chip nanomechanical testing and a large number of samples to establish a definitive fracture toughness of graphene of 4.4 MPa m1/2, with fracture controlled by unavoidable 1.4 nm-size defects.
- Sahar Jaddi
- , M. Wasil Malik
- & Thomas Pardoen
-
Article
| Open AccessUnraveling the energy storage mechanism in graphene-based nonaqueous electrochemical capacitors by gap-enhanced Raman spectroscopy
Graphene is widely used as an electrode material but the understanding of its interface with electrolyte remains elusive. Here, authors employ gap-enhanced Raman spectroscopy and find that the charging mechanism shifts from co-ion desorption to ion exchange as the number of graphene layers increase.
- Xiao-Ting Yin
- , En-Ming You
- & Jia-Wei Yan
-
Article
| Open AccessEnvironmental damping and vibrational coupling of confined fluids within isolated carbon nanotubes
Nanotubes exhibit high vibrational coupling to the environment but lack a theoretical description. Vacuum-isolated, suspended double walled nanotubes provide a damping model for mass coupling, offering new nanomechanics and nanofluidics insights.
- Yu-Ming Tu
- , Matthias Kuehne
- & Michael S. Strano
-
Article
| Open AccessIn-situ and wavelength-dependent photocatalytic strain evolution of a single Au nanoparticle on a TiO2 film
The wavelength-dependent structural deformations of nanoparticles during photocatalysis are poorly understood. Here, the authors present the photocatalytic strain evolution of a single Au nanoparticle using 3D Bragg coherent X-ray diffraction imaging.
- Sung Hyun Park
- , Sukyoung Kim
- & Joonseok Lee
-
Article
| Open Access3D oxygen vacancy distribution and defect-property relations in an oxide heterostructure
Authors apply atom probe tomography to image and quantify the 3D distribution of oxygen vacancies in (LuFeO3)9/(LuFe2O4)1 superlattices, linking local variations in chemical composition to the emergent multiferroic properties.
- Kasper A. Hunnestad
- , Hena Das
- & Dennis Meier
-
Article
| Open AccessBulk-suppressed and surface-sensitive Raman scattering by transferable plasmonic membranes with irregular slot-shaped nanopores
Characterizing surfaces by Raman spectroscopy is limited by the competition of surface and bulk Raman responses. Here the authors use nanoporous plasmonic membranes to enhance surface Raman signals while suppressing bulk contributions.
- Roman M. Wyss
- , Günter Kewes
- & Sebastian Heeg
-
Article
| Open AccessUsing scalable computer vision to automate high-throughput semiconductor characterization
While materials synthesis methods have seen advancements in speed and efficiency, characterization techniques have lagged behind. Here, authors design automated computer vision algorithms to accurately characterize hundreds of materials in minutes.
- Alexander E. Siemenn
- , Eunice Aissi
- & Tonio Buonassisi
-
Article
| Open AccessVortex entropy and superconducting fluctuations in ultrathin underdoped Bi2Sr2CaCu2O8+x superconductor
The authors study the vortex entropy in ultrathin flakes of the underdoped cuprate superconductor Bi2Sr2CaCu2O8+x by measuring both magneto-resistivity and Nernst effect. They find that, while the superfluid phase stiffness varies linearly with Tc, the vortex entropy decreases exponentially at lower Tc.
- Shuxu Hu
- , Jiabin Qiao
- & Ding Zhang
-
Article
| Open AccessMulti-objective Bayesian active learning for MeV-ultrafast electron diffraction
Due to the complex, nonlinear and correlated nature of accelerator systems, electron beam property optimisation is a time-consuming process. Here, the authors utilise multi-objective Bayesian active learning for speeding up online beam tuning at MeV ultrafast electron diffraction facility.
- Fuhao Ji
- , Auralee Edelen
- & Robert Joel England
-
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
-
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
-
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
-
Article
| Open AccessPolar Bloch points in strained ferroelectric films
Authors predict polar Bloch points with negative capacitance in tensile-strained ultrathin ferroelectric PbTiO3 film by phase-field simulations, observing their polarization structures by scanning transmission electron microscopic imaging.
- Yu-Jia Wang
- , Yan-Peng Feng
- & Xiu-Liang Ma
-
Article
| Open AccessImaging 3D chemistry at 1 nm resolution with fused multi-modal electron tomography
The authors demonstrate 3D chemical imaging of organic and inorganic materials near or below one-nanometer resolution using multi-modal electron tomography, by fusing elastic and inelastic scattering signals.
- Jonathan Schwartz
- , Zichao Wendy Di
- & Robert Hovden
-
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 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 AccessDeuteration-enhanced neutron contrasts to probe amorphous domain sizes in organic photovoltaic bulk heterojunction films
The use of conventional X-ray scattering techniques is challenging to detect donor-acceptor contrast within amorphous intermixing regions. Here, the authors apply neutron scattering and targeted deuteration to enhance the contrast by one order of magnitude and reveal short-range aggregations of d-Y6.
- Guilong Cai
- , Yuhao Li
- & Xinhui Lu
-
Article
| Open AccessDynamical evolution of CO2 and H2O on garnet electrolyte elucidated by ambient pressure X-ray spectroscopies
Li6.5La3Zr1.5Ta0.5O12 (LLZO) is a promising solid electrolyte but suffers from severe surface degradation in air. Here, authors use mapping of resonant Auger spectroscopy and various ambient pressure X-ray spectroscopies to elucidate the dynamical evolution of CO2 and H2O on clean LLZO surfaces.
- Nian Zhang
- , Guoxi Ren
- & Xiaosong Liu
-
Article
| Open AccessSolar-driven sugar production directly from CO2 via a customizable electrocatalytic–biocatalytic flow system
Solar-driven artificial food synthesis from CO2 provides an approach to overcome the limitations of natural photosynthesis, but it is very challenging. Here, the authors report a hybrid electrocatalytic-biocatalytic flow system, coupling photovoltaics-powered electrocatalysis (CO2 to formate) with a five enzyme cascade platform (formate to sugar), which achieves conversion of CO2 to C6 sugar (L-sorbose) with a solar-to-food energy conversion efficiency of 3.5%.
- Guangyu Liu
- , Yuan Zhong
- & Yujie Xiong
-
Article
| Open AccessSpectroscopic visualization of reversible hydrogen spillover between palladium and metal–organic frameworks toward catalytic semihydrogenation
The authors report an in situ investigation of interfacial hydrogen spillover in Pd/ZIF-8 structures with X-ray and Raman techniques. A mechanistic picture of how Pd/ZIF-8 catalyst mediate alkyne semihydrogenation to alkynes is described.
- Qiaoxi Liu
- , Wenjie Xu
- & Yujie Xiong
-
Article
| Open AccessButton shear testing for adhesion measurements of 2D materials
2D materials are being investigated for several applications in micro- and nanoelectronics, but their weak adhesion represents a critical challenge for device integration. Here, the authors propose a button shear testing method to evaluate the adhesion forces of various large-area 2D films on SiO2 and Si3N4 substrates.
- Josef Schätz
- , Navin Nayi
- & Max C. Lemme
-
Article
| Open AccessInterrogating site dependent kinetics over SiO2-supported Pt nanoparticles
Kim and co-workers introduce a new ‘kinetic site deconvolution’ method to identify active sites on heterogeneous catalysts by linking reaction rates to specific adsorption environments.
- Taek-Seung Kim
- , Christopher R. O’Connor
- & Christian Reece
-
Article
| Open AccessEnergy transfer driven brightening of MoS2 by ultrafast polariton relaxation in microcavity MoS2/hBN/WS2 heterostructures
Here, the authors design a microcavity-confined 2D heterojunction to realize the strong coupling among donor exciton, acceptor exciton, and cavity photon mode, leading to an unconventional energy transfer via polariton relaxation with an enhancement factor of ~440.
- Zehua Hu
- , Tanjung Krisnanda
- & Qihua Xiong
-
Article
| Open AccessHigh-strength and crack-free welding of 2024 aluminium alloy via Zr-core-Al-shell wire
Solidification cracking during fusion welding of high-strength aluminum alloys has been a long-standing issue. Here, the authors achieve reliable and crack-free welding of 2024 aluminum alloy using a Zr-core-Al-shell wire and the oscillating laser-arc hybrid welding technique.
- Jun Jin
- , Shaoning Geng
- & Xiangqi Wang
-
Article
| Open AccessInsights into structural defect formation in individual InP/ZnSe/ZnS quantum dots under UV oxidation
InP/ZnSe/ZnS quantum dots (QDs) are promising candidates for advanced light-emitting diodes, but low emission efficiency due to oxidation hampers applications. Here, the authors provide insight into the structural defects that form on individual QDs during UV-facilitated oxidation.
- Hayeon Baek
- , Sungsu Kang
- & Jungwon Park
-
Article
| Open AccessIn situ modulating coordination fields of single-atom cobalt catalyst for enhanced oxygen reduction reaction
The electrochemical oxygen reduction reaction plays an important role in new energy technologies such as fuel cells and metal-air batteries. Here the authors present a cobalt catalyst with a symmetry-broken Cl−Co−N4 moiety capable of dynamically modulating electron occupancy at active sites during practical reaction conditions to optimize oxygen reduction performance.
- Meihuan Liu
- , Jing Zhang
- & Qinghua Liu
-
Article
| Open AccessElastic properties and tensile strength of 2D Ti3C2Tx MXene monolayers
The Young’s modulus of the MXene Ti3C2Tx, theoretically predicted to be 0.502 TPa, has not yet been experimentally confirmed. This work supplants previous reports using nanoindentation with the correctly measured Young’s modulus of 0.484 ± 0.013 TPa.
- Chao Rong
- , Ting Su
- & Fu-Zhen Xuan
-
Article
| Open AccessHarmonic amide bond density as a game-changer for deciphering the crosslinking puzzle of polyamide
Relating the degree of network crosslinking as a descriptor to the desalination performance of crosslinked polymer membranes remains challenging. Here, the authors introduce a parameter based on distinct amide bonds per unit mass of polyamide, to unravel the relationship between the crosslinked networks of polyamide membranes and their desalination performance.
- Yu-Ren Xue
- , Chang Liu
- & Zhi-Kang Xu
-
Article
| Open AccessLiquid Madelung energy accounts for the huge potential shift in electrochemical systems
Electrode potential in any electrochemical systems has long been discussed by classical Debye-Hückel theory which holds only under extremely dilute concentrations. Here, the authors establish the concept ‘liquid Madelung potential’ to comprehensively describe the potential shift at practical concentrations.
- Norio Takenaka
- , Seongjae Ko
- & Atsuo Yamada
-
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
-
Article
| Open AccessThree dimensional classification of dislocations from single projections
Many material properties are governed by the internal dislocation network within the material. Here, the authors describe a method to determine the three dimensional position and type of dislocations from a measurement along only a single direction within a scanning transmission electron microscope.
- Tore Niermann
- , Laura Niermann
- & Michael Lehmann
-
Article
| Open Access3D atomic structure from a single X-ray free electron laser pulse
X-ray Free Electron Lasers allow fast structure determination. Here, the authors push the temporal limit of atomic level structure determination to 25 fs, the length of a single pulse, paving the way to the study of fast, non-repeatable processes.
- Gábor Bortel
- , Miklós Tegze
- & Gyula Faigel
-
Article
| Open AccessStable and efficient pure blue quantum-dot LEDs enabled by inserting an anti-oxidation layer
Blue QD-LEDs suffer from poor operational stability due to the carrier accumulation at transport layers. Here, the authors propose a strategy to mitigate the hole accumulation driven oxidation in hole transport layer, effectively elongating the operational lifetime of blue QD-LEDs.
- Wenjing Zhang
- , Bo Li
- & Huaibin Shen
-
Article
| Open AccessResolving electron and hole transport properties in semiconductor materials by constant light-induced magneto transport
Here, the authors introduce a constant light-induced magneto-transport method which seamlessly integrates light, current, and a magnetic field to characterize electron and hole properties across an expansive array of materials.
- Artem Musiienko
- , Fengjiu Yang
- & Antonio Abate
-
Article
| Open AccessQuantitative analysis of printed nanostructured networks using high-resolution 3D FIB-SEM nanotomography
The physical properties of devices made of printed nanosheets and nanowires are determined by their intrinsic nanostructured network morphology. Here, the authors use FIB-SEM nanotomography to quantitatively analyze printed nanostructured networks via 3D reconstructions.
- Cian Gabbett
- , Luke Doolan
- & Jonathan N. Coleman
-
Article
| Open AccessTensile straining of iridium sites in manganese oxides for proton-exchange membrane water electrolysers
The acidic oxygen evolution reaction plays a crucial role in proton-exchange membrane water electrolysis devices. The authors developed a low-iridium catalyst with tensile-strain able to trigger a localized lattice oxygen-mediated mechanism to realize efficient and stable acid-OER performance.
- Hui Su
- , Chenyu Yang
- & Qinghua Liu
-
Article
| Open AccessMolecular sensitised probe for amino acid recognition within peptide sequences
Chemical identification of the building blocks of biopolymers often considerably relies on the presence of markers, extensive simulations, or is not possible at all. Here, the authors report a molecular probe-sensitisation approach addressing the identification of a specific amino acid within different peptides.
- Xu Wu
- , Bogdana Borca
- & Uta Schlickum
-
Article
| Open AccessEnabling direct-growth route for highly efficient ethanol upgrading to long-chain alcohols in aqueous phase
Achieving efficient carbon chain propagation remains a grand challenge for ethanol upgrading. Here, the authors report sulfur doped Ni@C-Sx catalysts with controllably exposed nickel sites that can dramatically improve direct-growth probability towards long-chain alcohols production.
- Juwen Gu
- , Wanbing Gong
- & Yujie Xiong
-
Article
| Open AccessUnraveling the synergistic effects of Cu-Ag tandem catalysts during electrochemical CO2 reduction using nanofocused X-ray probes
Combining in situ nanoprobe techniques paves the way for gaining insights into structure-selectivity relations for electrocatalysts. Herein, the dynamic evolution of lattice strain in individual nanoparticles is directly visualized with nanoscale resolution in Cu-Ag tandem catalysts during the electrocatalytic conversion of CO2 into value-added chemicals.
- Marvin L. Frisch
- , Longfei Wu
- & Peter Strasser
-
Article
| Open AccessQuantitative three-dimensional imaging of chemical short-range order via machine learning enhanced atom probe tomography
Quantifying chemical short-range order (CSRO) remains a formidable for volume-averaged or 2D microscopy methods. Here the authors introduce a machine-learning approach that breaks the resolution limitations of atom probe tomography to reveal the 3D atomistic architecture of CSRO in Fe-based alloys.
- Yue Li
- , Ye Wei
- & Baptiste Gault
-
Article
| Open AccessLead-free Zr-doped ceria ceramics with low permittivity displaying giant electrostriction
Electrostrictors are materials that develop mechanical strain proportional to the square of the applied electric field. Here authors report. Zr-doped-Ceria as a new lead-free electrostrictive material with a similar electrostriction coefficient to the best electrostrictor material currently in use.
- Maxim Varenik
- , Boyuan Xu
- & Igor Lubomirsky
-
Article
| Open AccessSEI growth on Lithium metal anodes in solid-state batteries quantified with coulometric titration time analysis
In lithium-metal batteries, it is vital to quantify electrolyte side reactions occurring at the metal anode surface. Here, the authors introduce an electrochemical technique, using a series of small-step lithium deposition followed by open circuit voltage analysis, to accurately measure these reactions.
- Burak Aktekin
- , Luise M. Riegger
- & Jürgen Janek
-
Article
| Open AccessElucidating the active phases of CoOx films on Au(111) in the CO oxidation reaction
Supported CoOx catalysts display higher reactivities towards CO oxidation, yet, corresponding catalytically active phases are still unclear, especially under reaction conditions. Here, by means of in-situ APXPS and ResPES, the authors demonstrate that the topographic restructuring and chemical restructuring occur on these CoOx working catalysts, and also highlight the unique catalytic properties of Co3+ sites.
- Hao Chen
- , Lorenz J. Falling
- & Miquel Salmeron
-
Article
| Open AccessThe practice of reaction window in an electrocatalytic on-chip microcell
Here, the authors investigate frequently observed variations in data between different electrochemical cells using in-situ electronic/electrochemical measurements, developing a vertical microcell strategy to eliminate the conductance issue and enhance measurement reproducibility.
- Hang Xia
- , Xiaoru Sang
- & Yongmin He
-
Article
| Open AccessArtificial photosynthetic cells with biotic–abiotic hybrid energy modules for customized CO2 conversion
The design of programmable artificial photosynthetic cells is hindered by the requirement for cofactor generation for the biocatalytic module. Here, the authors report on the design of artificial photosynthetic cells using biotic–abiotic thylakoid–CdTe as hybrid energy modules, which enhance the regeneration of NADPH, NADH and ATP cofactors without external supplements by promoting proton-coupled electron transfer.
- Feng Gao
- , Guangyu Liu
- & Yujie Xiong
-
Article
| Open AccessQuantitative three-dimensional local order analysis of nanomaterials through electron diffraction
Correlated disorder can lead to phenomena that are inaccessible to ordered structures. Here the authors show that local order principles can be directly derived from the three-dimensional difference pair distribution function based on the single crystal diffuse scattering in 3D electron diffraction data from nanometre sized crystals.
- Ella Mara Schmidt
- , Paul Benjamin Klar
- & Lukas Palatinus
-
Article
| Open AccessIn situ electron paramagnetic resonance spectroscopy using single nanodiamond sensors
Nanodiamonds containing NV centers are promising electron paramagnetic resonance sensors, however applications are hindered by their random orientation. Qin et al. propose a new protocol that makes the technique insensitive to the sensor’s orientation and present a proof-of-principle in situ demonstration.
- Zhuoyang Qin
- , Zhecheng Wang
- & Jiangfeng Du
-
Article
| Open AccessRevealing the aging process of solid electrolyte interphase on SiOx anode
Observing the evolution of the solid electrolyte interphase on SiOx-based electrodes in Li-ion batteries is challenging. Here, authors use three-dimensional tomography to visualize the growth of the interphase on single SiOx particles and propose a mechanical confinement strategy to prevent aging.
- Guoyu Qian
- , Yiwei Li
- & Feng Pan
-
Article
| Open AccessCapturing dynamical correlations using implicit neural representations
Analysis of experimental data in condensed matter is often challenging due to system complexity and slow character of physical simulations. The authors propose a framework that combines machine learning with theoretical calculations to enable real-time analysis for electron, neutron, and x-ray spectroscopies.
- Sathya R. Chitturi
- , Zhurun Ji
- & Joshua J. Turner