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| Open AccessCoherent correlation imaging for resolving fluctuating states of matter
Nanoscale magnetic fluctuations are spatiotemporally resolved beyond conventional resolution limits using coherent correlation imaging, in which frames in Fourier space are recorded and analysed using an iterative hierarchical clustering algorithm.
- Christopher Klose
- , Felix Büttner
- & Bastian Pfau
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Article |
Non-epitaxial single-crystal 2D material growth by geometric confinement
Geometric confinement on arbitrary substrates promotes, without epitaxial seeding, the layer-by-layer growth of two-dimensional single-crystal monolayers and bilayers of transition metal dichalcogenides.
- Ki Seok Kim
- , Doyoon Lee
- & Jeehwan Kim
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Research Briefing |
An artificial molecular motor powered by electricity
Electric motors convert electrical energy into mechanical motion. A molecular motor has been designed in which electricity drives redox reaction cycles that lead to the movement of two small rings around a large circular loop. The small rings make one full revolution around the loop for every two redox cycles.
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Article
| Open AccessAn electric molecular motor
An electrically driven motor on the molecular scale based on [3]catenane is described, in which two cyclobis(paraquat-p-phenylene) rings operate by means of redox reactions, demonstrating highly unidirectional movement around a circular loop.
- Long Zhang
- , Yunyan Qiu
- & J. Fraser Stoddart
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Article |
Approaching the quantum limit in two-dimensional semiconductor contacts
The electrical contact of two-dimensional transistors is pushed close to the quantum limit by hybridization of the energy bands with antimony; the contacts have low contact resistance and excellent stability.
- Weisheng Li
- , Xiaoshu Gong
- & Xinran Wang
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Article |
Long-range ordered porous carbons produced from C60
A new type of carbon, long-range ordered porous carbon, is synthesized from carbon fullerenes at the gram scale and under ambient pressure.
- Fei Pan
- , Kun Ni
- & Yanwu Zhu
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Article |
Ultrathin quantum light source with van der Waals NbOCl2 crystal
A van der Waals crystal, niobium oxide dichloride, with vanishing interlayer electronic coupling and considerable monolayer-like excitonic behaviour in the bulk, as well as strong and scalable second-order optical nonlinearity, is discovered, which enables a high-performance quantum light source.
- Qiangbing Guo
- , Xiao-Zhuo Qi
- & Andrew T. S. Wee
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Article |
Topological lattices realized in superconducting circuit optomechanics
Optomechanical lattices in one and two dimensions with exceptionally low disorder are realized, showing how the optomechanical interaction can be exploited for direct measurements of the Hamiltonian, beyond the tight-binding approximation.
- Amir Youssefi
- , Shingo Kono
- & Tobias J. Kippenberg
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Research Briefing |
Array of chiral nanoparticles discriminates between enantiomers
When circularly polarized light hits an array of chiral gold nanoparticles, it generates polarized electric and magnetic waves across the surface of the nanoparticles. Chiral molecules can alter these resonances, providing a highly sensitive method to determine and quantify molecular chirality, even at very low concentrations.
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Enantioselective sensing by collective circular dichroism
An array of 2D crystals of isotropic, 432-symmetric chiral gold nanoparticles is shown to exhibit collective resonances with a strong and uniform chiral near field, allowing enantioselective detection by the collective circular dichroism.
- Ryeong Myeong Kim
- , Ji-Hyeok Huh
- & Ki Tae Nam
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Article |
Spin cross-correlation experiments in an electron entangler
Spin correlation experiments are demonstrated in an electron entangler device based on the ‘splitting’ of Cooper pairs from a superconductor, which can potentially be used to investigate many fundamental phases and processes related to the electron spin.
- Arunav Bordoloi
- , Valentina Zannier
- & Andreas Baumgartner
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Article |
Integrated femtosecond pulse generator on thin-film lithium niobate
A femtosecond pulse generator is realized using an electro-optic time-lens system integrated on a lithium niobate photonic chip, capable of tunable repetition rates and wavelengths.
- Mengjie Yu
- , David Barton III
- & Marko Lončar
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Research Briefing |
A machine that uses the surface of water to braid microscopic fibres
Conventional manufacturing methods struggle to meet the increasing demand for microscopic and nanoscale products, because small things are difficult to manipulate. An innovative machine that uses a water–air interface to grab and manoeuvre microscopic objects might be a powerful tool in this race-to-the-smallest.
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Article |
Open-channel metal particle superlattices
DNA-mediated assembly of hollow nanoparticles can be used in an edge-bonding approach to design and synthesize nanoscale open-channel superlattices, with control of symmetry, geometry and topology.
- Yuanwei Li
- , Wenjie Zhou
- & Chad A. Mirkin
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Research Briefing |
A deep artificial neural network powered by enzymes
Molecular networks have been developed that can classify complex mixtures of DNA sequences that cannot be categorized by a single linear classifier. To do this, artificial ‘neurons’ powered by enzymes are wired together to form an architecture that mimics the structure of a neural network.
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Article |
A tape-reading molecular ratchet
A molecular ratchet, in which a crown ether is pumped from solution onto an encoded molecular strand by a pulse of chemical fuel, opens the way for the reading of information along molecular tapes.
- Yansong Ren
- , Romain Jamagne
- & David A. Leigh
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Article |
Nonlinear decision-making with enzymatic neural networks
Mimicking traditional digital neural networks with DNA-encoded ‘enzymatic’ neurons overcomes issues with other chemical approaches, and could allow notable increases in miniaturization and molecular implementation of these AI models, with potential applications including DNA data storage or cancer diagnosis.
- S. Okumura
- , G. Gines
- & A. J. Genot
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Article |
Shape memory in self-adapting colloidal crystals
Preparing crystals held together with macromolecular bonds can create shape memory materials that can be engineered to exhibit a wide range of reversible changes useful for chemical sensing, optics and robotics.
- Seungkyu Lee
- , Heather A. Calcaterra
- & Chad A. Mirkin
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News & Views |
Charge transfer observed in light-activated catalyst particles
The movement of electric charges in light-activated catalyst particles is key to the water-splitting reaction, which could be used to generate hydrogen as a renewable fuel. Such movement has now been observed in exquisite detail.
- Ulrich Aschauer
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Article |
Spatiotemporal imaging of charge transfer in photocatalyst particles
Photovoltage measurements on cuprous oxide photocatalyst particles are used to spatiotemporally track the charge transfer processes on the femtosecond to second timescale at the single-particle level.
- Ruotian Chen
- , Zefeng Ren
- & Can Li
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Article
| Open AccessUniversal control of a six-qubit quantum processor in silicon
The universal control of six qubits in a 28Si/SiGe quantum dot array is demonstrated, achieving Rabi oscillations for each qubit with visibilities of 93.5–98.0%, implying high readout and initialization fidelities.
- Stephan G. J. Philips
- , Mateusz T. Mądzik
- & Lieven M. K. Vandersypen
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Article |
Femtosecond laser writing of lithium niobate ferroelectric nanodomains
We propose and experimentally demonstrate a non-reciprocal near-infrared femtosecond laser-writing technique for reconfigurable three-dimensional nanoscale ferroelectric domain engineering in LiNbO3 crystals.
- Xiaoyi Xu
- , Tianxin Wang
- & Yong Zhang
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News Round-Up |
Levitating nanoparticles, medieval-burial mystery and ancient femur
The latest science news, in brief.
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Article |
Imaging hydrodynamic electrons flowing without Landauer–Sharvin resistance
At elevated temperatures, electron hydrodynamics efficiently eliminate the ‘bulk Landauer–Sharvin’ resistance, demonstrating that hydrodynamics can dramatically modify the well-established rules obeyed by ballistic electrons.
- C. Kumar
- , J. Birkbeck
- & S. Ilani
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News |
‘Levitating’ nanoparticles could push the limits of quantum entanglement
Interaction between glass spheres suspended in a vacuum might one day lead to advances in quantum computing.
- Davide Castelvecchi
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News & Views |
Suspended pores boost gas solubility in water
Porous solids have been dispersed in water to produce suspensions that can carry much more oxygen than blood can. Such ‘porous water’ opens the way to water-based formulations for biomedical use.
- Margarida Costa Gomes
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Article
| Open AccessA compute-in-memory chip based on resistive random-access memory
A compute-in-memory neural-network inference accelerator based on resistive random-access memory simultaneously improves energy efficiency, flexibility and accuracy compared with existing hardware by co-optimizing across all hierarchies of the design.
- Weier Wan
- , Rajkumar Kubendran
- & Gert Cauwenberghs
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Nature Index |
The nanoscience revolution
Breakthroughs in nanotechnology could offer wide-ranging benefits to a host of industries, from agriculture to computing, but getting public buy-in remains key.
- Bec Crew
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Nature Index |
How cross-border collaboration underpins the nanoscience revolution
Five highly cited papers that have drawn on the strengths of international partnership.
- Bec Crew
- , David Payne
- & Benjamin Plackett
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Nature Index |
Why I wrote a children’s book about nanoscience
Inspiring the next generation can help to tackle nano-phobia.
- Jess Wade
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Nature Index |
Four rising stars who are reshaping nanoscience
From nano-filters for tackling water pollution to protein fingerprinting that treats disease, these researchers are making their mark on the field.
- Gemma Conroy
- & Benjamin Plackett
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Nature Index |
Improving crop resilience with nanoparticles
Materials that can carry CRISPR gene-editing into plant cells could be key in the fight against global hunger.
- Neil Savage
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Nature Index |
Nanomaterials pave the way for the next computing generation
Technology on the nanometre scale could provide solutions to move on from the solid-state era.
- Jeff Hecht
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Nature Index |
Teamwork drives Australia’s success in nanoscience
Cooperation between researchers and consistent government funding are finally bearing fruit.
- Benjamin Plackett
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News & Views |
Magnetically soft but mechanically tough alloys
Soft magnetic materials can be magnetized and demagnetized by weak magnetic fields, but lack the strength, toughness and malleability needed for many applications. An alloy that solves this problem has now been developed.
- Easo P. George
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Research Briefing |
Bright blue nanoscale LEDs for next-generation displays
Microscopic light-emitting diodes (LEDs) have applications ranging from augmented-reality displays to large-screen products, but their brightness typically decreases as their size is reduced. A solution to this problem has now been found and used to manufacture bright blue nanoscale LEDs.
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P-type electrical contacts for 2D transition-metal dichalcogenides
Clean van der Waals contacts of high-work-function metals have been demonstrated on few- and single-layered MoS2 and WSe2, leading to p-type characteristics on single-layer MoS2 and purely p-type characteristics on WSe2.
- Yan Wang
- , Jong Chan Kim
- & Manish Chhowalla
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News |
AI’s carbon footprint and a DNA nanomotor — the week in infographics
Nature highlights three key graphics from the week in science and research.
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News Round-Up |
Molecular motor, warm blood’s origin and researcher lay-offs
The latest science news, in brief.
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Article |
Tracking single adatoms in liquid in a transmission electron microscope
The ability to resolve single atoms in a liquid environment is demonstrated by combining a transmission electron microscope and a robust double graphene liquid cell, enabling studies of adatom motion at solid–liquid interfaces.
- Nick Clark
- , Daniel J. Kelly
- & Sarah J. Haigh
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Article |
Dislocation-induced stop-and-go kinetics of interfacial transformations
Environmental transmission electron microscopy is used to reveal that mismatch dislocations modulate the interfacial transformation of copper oxide to copper metal in an intermittent manner.
- Xianhu Sun
- , Dongxiang Wu
- & Guangwen Zhou
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Technology Feature |
Light-based sensors set to revolutionize on-site testing
Nanophotonic biosensors exploit light’s properties to detect molecular interactions in real time at the point of need.
- Diana Kwon
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News |
Molecular motor is ‘DNA origami’ milestone
Rotating device driven by Brownian motion could pave the way for more advanced nanoscale machines.
- Davide Castelvecchi
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News & Views |
A microscopic electric motor made of DNA
The race is on to develop nanometre-scale motors for future tiny machines. The latest entry is a multi-component motor that self-assembles from DNA, harnesses Brownian motion to spin a rotor, and can wind up a molecular spring.
- Henry Hess
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Article |
Giant pyroelectricity in nanomembranes
By examining three model pyroelectric materials with different bonding characters along the out-of-plane direction, it is shown that their pyroelectric coefficients increase rapidly when the thickness of free-standing sheets becomes small.
- Jie Jiang
- , Lifu Zhang
- & Jian Shi
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Article
| Open AccessA DNA origami rotary ratchet motor
A nanoscale rotary motor made of DNA origami, driven by ratcheting and powered by an external electric field, shows the ability to wind up a spring and has mechanical capabilities approaching those of biological motors.
- Anna-Katharina Pumm
- , Wouter Engelen
- & Hendrik Dietz
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Perspective |
Two-dimensional materials prospects for non-volatile spintronic memories
Developments, challenges and opportunities in using two-dimensional materials for the next generation of non-volatile spin-based memory technologies are reviewed, and possible disruptive improvements are discussed.
- Hyunsoo Yang
- , Sergio O. Valenzuela
- & Stephan Roche
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Research Highlight |
DNA ‘skeleton’ could make a shapely synthetic cell
Filaments of genetic material can transport molecular packages and provide structure — just like the framework that supports real cells.
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News & Views |
Molecular soccer balls connected to make a 2D material
Two-dimensional materials made of carbon have been limited to monolayers of atoms, such as graphene. Sheets composed of connected buckyballs — spherical clusters of atoms — have now been made by peeling layers from a crystal.
- J. Michael Gottfried