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A study of hot compression behavior of an as-cast FeCrCuNi2Mn2 high-entropy alloy
A study of hot compression behavior of an as-cast FeCrCuNi2Mn2 high-entropy alloy
Corrosion performance and biological properties of electrophoretically deposited bioactive glass-zirconia core-shell composite coating on Ti6Al4V substrate
Corrosion performance and biological properties of electrophoretically deposited bioactive glass-zirconia core-shell composite coating on Ti6Al4V substrate
Corrosion performance and biological properties of electrophoretically deposited bioactive glass-zirconia core-shell composite coating on Ti6Al4V substrate
Corrosion performance and biological properties of electrophoretically deposited bioactive glass-zirconia core-shell composite coating on Ti6Al4V substrate
Lightweight and Highly Flexible Metal Deposited Composite Fabrics for High-performance Electromagnetic Interference Shielding at Gigahertz Frequency
Lightweight and Highly Flexible Metal Deposited Composite Fabrics for High-performance Electromagnetic Interference Shielding at Gigahertz Frequency
Lightweight and Highly Flexible Metal Deposited Composite Fabrics for High-performance Electromagnetic Interference Shielding at Gigahertz Frequency
Lightweight and Highly Flexible Metal Deposited Composite Fabrics for High-performance Electromagnetic Interference Shielding at Gigahertz Frequency
Adjusting the K-doping of La1-K MnO3 (0.1? x ? 0.35) films to obtain high TCR and LFMR at room-temperature
Fabrication and characterization of upconversion N-doped graphene quantum dots for improving photoelectrocatalytic performance of rutile hierarchical TiO? nanowires under visible and near-infrared light irradiations
Fabrication and characterization of upconversion N-doped graphene quantum dots for improving photoelectrocatalytic performance of rutile hierarchical TiO? nanowires under visible and near-infrared light irradiations
Graphene-Like Sheets Supported Fe-Co Layered Double Hydroxides Nanoflakes as An Efficient Electrocatalyst for Both Hydrogen and Oxygen Evolution Reaction, A Green Investigation
Graphene-Like Sheets Supported Fe-Co Layered Double Hydroxides Nanoflakes as An Efficient Electrocatalyst for Both Hydrogen and Oxygen Evolution Reaction, A Green Investigation