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A novel titanium alloy with tantalum and copper can produce surgical implants that kill 87% of the bacteria that cause staph infections.

vacancies can be used to engineer the mechanical toughness and fracture behavior of transition metal dichalcogenides

stretchable polymer-perovskite quantum dot nanocomposite transistor functions as an artificial synapse

A new 3D inkjet printing system can work with a much wider range of materials by using computer vision to monitor the printing process.

A new laser-based technique offers a non-destructive and high-throughput way to dynamically characterize microscale metamaterials.

Researchers have developed a ceramic material for passive radiative cooling than can both reflect visible light and radiate away mid-infrared wavelengths.

A novel method can determine the sequence of a polymer as it is made, by imaging and identifying every single monomer as it is added to the polymer.

By fabricating their newly developed amorphous material as tiny strings, researchers have been able to demonstrate its exceptional strength.

A new 3D-printing method allows structural modifications to be ‘programed’ into metal alloys without the need for traditional heating and beating.

For the first time, researchers have shown that mechanical strain can alter the electronic properties of a metal.

Using 3D printing, researchers have created an alumium alloy decorated with nanoparticles that displays unprecedented fatigue resistance.

Using bioluminescent algae, researchers have created soft yet durable materials that glow in response to mechanical stress.

By adding metals with a high valence electron count, researchers have made ceramics that are tougher and more resistant to cracking.

Researchers have developed OpeN-AM, a platform for measuring evolving residual stress in metallic materials during 3D printing.

oxygen-generating microparticles in hydrogels drive the differentiation of human stem cells into osteoblasts, boosting bone regeneration

Researchers have used X-ray analysis to study the formation of microstructures in a 3D-printed nickel alloy during the printing process.

Researchers have shown that all-inorganic perovskites can be deformed and morphed at room temperature without compromising their functional properties.

Ultrafast X-ray imaging has revealed that tiny linear defects can propagate through a crystalline material faster than sound waves.

Researchers have fabricated a pure form of glass and coated it with stramds of DNA to create a material that is both lightweight and stronger than steel.

actuators based on composite fibers comprising aligned reduced graphene oxide (rGO) nanosheets and PEDOT: PSS surpass biological muscles

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A novel titanium alloy with tantalum and copper can produce surgical implants that kill 87% of the bacteria that cause staph infections.

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A novel graphene-assembled film possesses higher thermal conductivity than graphite film, even though graphite consists of many layers of graphene.

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Nacre, or mother-of-pearl, is a natural material with hard and soft components that attains high stiffness, strength, and fracture toughness.

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