Nanotechnology Spotlights

Nanowire meshes to improve electrochemical devices

nanomeshBy re-designing interconnected nanowire networks, researchers fabricated novel nanostructured current collectors, which are the first to combine very high surface area, high porosity, substantially large pores and mechanical flexibility. Thanks to its ordered microstructure, the material can uniquely combine high porosity of cellular metal foams with high surface area of state-of-the-art nanoporous dealloyed metals, which...

Jan 18, 2019

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Graphene researchers are inspired by spider webs

graphene_meshMotivated by the high level of flexibility exhibited by spider webs, scientists have developed a novel design for highly flexible and sensitive piezoresistive sensors based on an elastomer-filled graphene-woven fabric (E-GWF) structure. This technique mimics the distinct core-shell structure of spider webs. This fabrication method could also be extended to other 1D and 2D materials for many emerging practical applications....

Jan 17, 2019

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A solid-state nanopore platform for digital data storage

dna_computingUsing DNA to directly store data is an attractive possibility because it is extremely dense and long-lasting. Currently, though, synthesizing and sequencing DNA molecules for storing large amounts of data involves complex devices and is very expensive. In an effort to make data storage in DNA more affordable and commercially viable, researchers have combined nanopore sensing and DNA nanotechnology in a solid-state nanopore...

Jan 15, 2019

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The stressful life of high-capacity electrodes

microcantilever_arrayOne of the persistent challenges associated with electrode degradation and battery failure is the stress induced by ion intercalation, companied by large volume fluctuation of electrode materials. Although researchers have developed numerous in situ microscopy and spectrometry technologies that provided valuable insights into the impacts of the stress buildup and release, the strength of the localized stress at the micro-...

Jan 10, 2019

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Scientists use 2D h-BN nanosheets as the planar-alignment agent in a liquid crystal device to improve its optical transmission

hexagonal_boron_nitrideResearchers report an interesting phenomenon of two-dimensional (2D) hexagonal boron nitride (h-BN)-induced planar-alignment of a nematic liquid crystal and the subsequent optical and electro-optical effects. Liquid crystals (LCs) are optically anisotropic materials, and they are widely used in electro-optical display technology, known as liquid crystal displays (LCDs). Understanding the alignment phenomena of a nematic LC...

Jan 09, 2019

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Research highlights sustained electron transport kinetics of graphites for at least 9 weeks

electron_transportSluggish electron transport kinetics - also known as aging - has hindered the application of graphene, for example, as transparent photodiode sensors in optoelectronics, graphites for effective use as oxygen reducing agents in fuel cells and so many other applications that involve fast heterogeneous electron transport and even increased capacitance. Scientists now report a breakthrough solution to the oxidation-induced sluggish...

Jan 08, 2019

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Graphene and other 2D materials for advanced solar cells

graphene_photovoltaicsDue to their excellent electron-transport properties and extremely high carrier mobility, graphene and other other direct bandgap monolayer materials such as transition-metal dichalcogenides (TMDCs) and black phosphorus show great potential to be used for low-cost, flexible, and highly efficient photovoltaic devices. A recent review provides a comprehensive overview on the current state-of-the-art of 2D-materials-based solar...

Jan 07, 2019

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New version of memory could power AI phones, smart devices

memory_cellFor the first time, researchers have successfully developed a new version of phase-change memory that reduces the switching time and allows memory cells to produce excellent stability. The new type of phase-change memory can be as fast as state-of-the-art RAM chips being considered to power artificial intelligence (AI) in phones, and it could also be used to power a range of other smart devices. The new version of phase-change...

Dec 31, 2018

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Broadband nonlinear photoresponse of 2D titanium disulfide for ultrashort pulse generation and all-optical thresholding devices

photoresponseMotivated by the outstanding performance of graphene, graphene-like 2D materials have been intensively investigated, such as topological insulators, transition metal dichalcogenides (TMDs) and black phosphorous. Recently, 2D titanium disulfide, a typical TMD, is found to have strong light absorption properties from visible to infrared region, which is highly attractive for applications in nonlinear photonics. Researchers have...

Dec 27, 2018

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