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Showing Spotlights 25 - 32 of 2055 in category (newest first):

 

Hydrogen bond strength in DNA: where 3 could be less than 2

hydrogen_bondsHydrogen bond base pairing forces are essential for the mechanisms associated with DNA stability. Despite attracting great research attention, this fundamental interaction has eluded a precise physical description so far since its electrical origin has not been quantified yet. Researchers now have proposed characterization by means of electrical forces, providing a framework for universal characterization of hydrogen bonds. In this way, they provide technical arguments to support that hydrogen bonds are well distinguishable and their role in biological events require a proper specific intrabond description.

Posted: Oct 10th, 2017

Graphene origami - folding with 'colors'

origami_patternJust like traditional paper origami that results in complicated 3D structures from 2D paper, graphene origami allows the design and fabrication of carbon nanostructures that are not naturally existing but of desirable properties. In a new report, researchers describe how p-type and n-type doping of 2D sheets like graphene in selected areas could be exploited as two 'colors' to guide the sheets into preferred folded shapes where complementarily doped areas maximize their mutual overlap.

Posted: Oct 6th, 2017

Combining scanning probe technologies with microbeads for low-cost, high-resolution optical lithography systems

cantileverAmong the important parameters in optical lithography is the spatial resolution you can get and the time you need to draw your pattern. Systems with regular and fixed patterns can be extremely fast but those systems are based on masks. Mask production is a time consuming and expensive process. So-called mask-less systems can draw unorganized patterns directly on substrates, at the cost of longer process times. Researchers now have presented a new lithographic approach with a high-resolution, low-cost technique based on nanosphere lithography.

Posted: Oct 4th, 2017

Electrode layer prepared from activated carbon (from tea leaves) enhances fuel cell performance by 33%

carbon_catalystChemical engineering researchers have reported the usage of activated carbon prepared from tea leaves, improving the mass transport phenomenon (33 % performance improvement) in an operating direct methanol fuel cell, owing to its pore structure characteristics. The cell performance underwent drastic changes in the mass transport region of the fuel cell polarization curve, comparable to the standard membrane electrode assembly. This is attributed to the pore structure of this framework aiding in enhanced water removal, as a result more air molecules react with the platinum catalyst sites finally improving the fuel cell performance.

Posted: Oct 3rd, 2017

Monitoring oxygen reaction dynamics with an individual nanosheet-based electronic circuit

electrochemical_cellElectrocatalysis offers important opportunities for clean fuel production, but uncovering the chemistry at the electrode surface remains a challenge. Here, this work exploits a single-nanosheet device to perform in-situ measurements of water oxidation electrocatalysis and reveal a crucial interaction with oxygen. The obtained in-depth understanding could provide valuable clues for catalysis system design and the in-situ measurement could be also useful to analyze other interfacial reaction processes.

Posted: Sep 29th, 2017

Lab-on-skin: Nanotechnology electronics for wearable health monitoring

electronic-skinNanotechnology materials are going to open new realms of possibility for flexible and stretchable monitoring gadgets that are wearable directly on the skin. Here we look at the latest developments in a class of electronic devices, commonly referred to as electronic skin, epidermal electronics, or electronic tattoos, from the materials, devices, and medical applications perspectives. While such devices can also be used for prosthetics and rehabilitation, optogenetics, and human-machine interfaces, this review focuses on the properties of the materials that enable skin-mounted sensors for use as diagnostic tools in the medical field.

Posted: Sep 26th, 2017

Nanocellulose dramatically improves the 3D-printability of carbon nanotubes for wearable electronics

3d-printingResearchers have focused on nanocellulose as a novel biomaterial with industrial and scientific applications, which range from the creation of new kinds of commercially useful materials and uses in medical technology all the way to the food and pharmaceutical industries. Engineers now have developed a new use for nanofibrillated cellulose by combining it with carbon nanotubes to form strong, conductive microfibers through a 3D-printing process. The team's 3D-printed wood nanocellulose-carbon nanotube microfibers combine high electrical conductivity and mechanical strength, which can be potentially used in wearable electronics with high performance and low cost.

Posted: Sep 25th, 2017

Designing next-generation neural interfaces with graphene

neural_interfaceIn order to fully exploit the potential of neural interfaces, the forthcoming generation of devices is expected to simultaneously offer multiple functionalities, including recording and stimulation of electrical activity, recognition of neurotransmitters, neuromodulators and other neurologically relevant biomolecules, as well as the capability for controlled drug delivery. Graphene and other 2D materials possess an array of properties (flexibility, electrical mobility, large surface area available for interaction with the neuronal components and amenable to surface modifications) that can enable enhanced functional capabilities for neural interfaces.

Posted: Sep 22nd, 2017