Yin Zhang

TL;DR: The potential of additive manufacturing to create alloys with unique microstructures and high performance for structural applications is demonstrated, with austenitic 316L stainless steels additively manufactured via a laser powder-bed-fusion technique exhibiting a combination of yield strength and tensile ductility that surpasses that of conventional 316L steels.

TL;DR: Atomic-resolution chemical mapping reveals deformation mechanisms in the CrFeCoNiPd alloy that are promoted by pronounced fluctuations in composition and an increase in stacking-fault energy, leading to higher yield strength without compromising strain hardening and tensile ductility.

TL;DR: It is demonstrated that Au nanorod@Pd superstructures (Au @Pd SSs), where the ordered Pd nanoarrays are precisely grown on Au nan orod surfaces via solution-based seed-mediated approach, would be an excellent solution for high-performance catalysis in hetero-nanostructures due to poor generation and transfer of plamson-induced hot electrons.

TL;DR: In situ synchrotron X-ray diffraction and computer simulations are combined to link residual stresses in steel to its tensile behaviour, establishing the mechanistic connections between the microscale residual stresses and mechanical behaviour of AM stainless steel.

TL;DR: A simple and effective strategy is developed to realize visible light–driven heterogeneous asymmetric catalysis under visible light and will provide a new approach for fabrication of heterogeneous catalysts and trigger more enthusiasm to conduct the asymmetricCatalysis driven by visible light.