Nanomaterials news, July 2021

Machine-learning model bonds with new materials

Researchers have developed a machine-learning model for predicting the bonding properties of materials from features of their component atoms.

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Precipitates help increase toughness of a structural alloy

Control over the toughness and ductility of alloys

Gold nanorods take the heat off harvesting stem cells

simple, cheap, biocompatible cell culture substrate uses gold nanorods to unlock stem cells in large numbers for regenerative medicine

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Heavy fermions with graphene useful for quantum technology

Producing heavy fermions with cheap and non-radioactive materials

New imaging technique gets to the surface of nanoparticles

Researchers used a novel imaging technique to obtain a high-resolution snapshot that reveals how ligands bind to the surface of nanoparticles.

Precipitates in alloy make space for both strength and ductility

Scientists have increased the strength and ductility of an alloy by introducing tiny precipitates into its matrix and tuning their size and spacing.

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Reflecting on a structural advance in color displays

By coating a mirror with a nanoscale layer of a conducting polymer, researchers have created structural colors for reflective color displays.

Nanoparticles hold magnetic attraction for plastic waste

functionalized superparamagnetic iron oxide nanoparticles or SPIONs capture plastic waste particles from contaminated water

Semiconducting monolayer and superconductor brought together at last

For the first time, researchers have fitted a monolayer of the semiconductor molybdenum disulfide with superconducting contacts.

Graphene put on the rack to change electronic properties

Using a specially prepared rack, researchers have shown that the electronic properties of graphene can be specifically modified by mechanical stretching.

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Highlighted papers from Materials Today Physics

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Five metals combine in 2D to create novel catalyst

Researchers have developed a 2D alloy made from five different metals and shown it can make an effective catalyst for reducing carbon dioxide.

Silver film helps free light from OLEDs

A new electrode made from an ultrathin silver film can help prevent light from becoming trapped in organic light emitting diodes.

Graphene quantum dots trap metal atoms for catalysis

By utilizing graphene quantum dots as a support, researchers have produced single-atom catalysts with a high density of transition-metal atoms.

Nanoarchitected carbon material generates quite an impact

Researchers have fabricated an ultralight nanoarchitected carbon material that is more efficient at absorbing impacts than Kevlar of the same weight.

Paper electronics turn over a new leaf

paper offers a cheap, flexible and biodegradable alternative substrate to silicon for simple electronic devices like disposable sensors

Testing times lead to stronger cement

Using an innovative method called scratch testing, researchers have shown that adding graphene nanoplatelets to cement increases its fracture resistance.