| 1.
Mussel-Inspired Adhesive and Tough Hydrogel Based on Nanoclay Conf..
[245]
|
| 2.
Significant reduction in friction and wear of a high-entropy alloy..
[70]
|
| 3.
Micro/nano-structured TiO2 surface with dual-functional antibacter..
[37]
|
| 4.
A strong, wear- and corrosion-resistant, and antibacterial Co–30 ..
[35]
|
| 5.
Tough, self-healable and tissue-adhesive hydrogel with tunable mul..
[33]
|
| 6.
Sliding Wear Behavior of Spark Plasma-Sintered Cu-6 Wt Pct Cr Allo..
[32]
|
| 7.
Engineering High-Resolution Micropatterns Directly onto Titanium w..
[32]
|
| 8.
Achieving exceptional wear resistance in a compositionally complex..
[30]
|
| 9.
In Situ Construction of An Ultra-Stable Conductive Composite Inter..
[30]
|
| 10.
Overcoming the strength-ductility trade-off via the formation of n..
[28]
|
| 11.
Antibacterial activity, corrosion resistance and wear behavior of ..
[27]
|
| 12.
In-situ formed heterogeneous grain structure in spark-plasma-sinte..
[26]
|
| 13.
Mussel-Inspired Contact-Active Antibacterial Hydrogel with High Ce..
[25]
|
| 14.
Porous titanium scaffolds with self-assembled micro/nano-hierarchi..
[25]
|
| 15.
Sliding wear of CoCrNi medium-entropy alloy at elevated temperatur..
[25]
|
| 16.
Tuning the mechanical properties of Fex(CoMoNi)100-x high-entropy ..
[25]
|
| 17.
Plant-inspired adhesive and tough hydrogel based on Ag-Lignin nano..
[24]
|
| 18.
Fabrication and evaluation of bulk nanostructured cobalt intended ..
[24]
|
| 19.
Zener pinning by coherent particles: pinning efficiency and partic..
[23]
|
| 20.
Significantly Enhanced Wear Resistance of an Ultrafine-Grained CrF..
[23]
|
| 21.
Polydopamine mediated assembly of hydroxyapatite nanoparticles and..
[21]
|
| 22.
Bio-inspired immobilization of strontium substituted hydroxyapatit..
[21]
|
| 23.
Achieving low wear in a μ-phase reinforced high-entropy alloy and..
[21]
|
| 24.
Surfactant-free electrochemical synthesis of fluoridated hydroxyap..
[20]
|
| 25.
Mussel-inspired dopamine oligomer intercalated tough and resilient..
[20]
|
| 26.
Pulse Electrochemical Driven Rapid Layer-by-Layer Assembly of Poly..
[20]
|
| 27.
A dual-pillar method for measurement of stress-strain response of ..
[19]
|
| 28.
Cancellous-Bone-like Porous Iron Scaffold Coated with Strontium In..
[19]
|
| 29.
A strong, tough, and osteoconductive hydroxyapatite mineralized po..
[18]
|
| 30.
A resilient and flexible chitosan/silk cryogel incorporated Ag/Sr ..
[18]
|
| 31.
Sliding wear of nanocrystalline Nb-Ag at elevated temperatures: Ev..
[18]
|
| 32.
Size effect on the mechanical behavior of single crystalline Fe-31..
[18]
|
| 33.
Superelasticity of micropillar of single crystalline Fe3Pt
[18]
|
| 34.
Enhance Fatigue Resistance of Nanocrystalline NiTi by Laser Shock ..
[18]
|
| 35.
Microstructure, Mechanical Properties, and Sliding Wear Behavior o..
[18]
|
| 36.
Cicada-inspired fluoridated hydroxyapatite nanostructured surfaces..
[18]
|
| 37.
In situ alloying based laser powder bed fusion processing of β Ti..
[18]
|
| 38.
Novel niobium and silver toughened hydroxyapatite nanocomposites w..
[17]
|
| 39.
Microstructure and dry sliding wear behavior of ultrafine-grained ..
[17]
|
| 40.
Microstructure, sliding wear and corrosion behavior of bulk nanost..
[17]
|
| 41.
Effects of atomic-level nano-structured hydroxyapatite on adsorpti..
[17]
|
| 42.
Mussel-inspired nano-multilayered coating on magnesium alloys for ..
[17]
|
| 43.
Graphene Oxide-Templated Conductive and Redox-Active Nanosheets In..
[17]
|
| 44.
A Mussel-Inspired Persistent ROS-Scavenging, Electroactive, and Os..
[16]
|
| 45.
The interaction of chitosan and BMP-2 tuned by deacetylation degre..
[16]
|
| 46.
Effects of nanocrystalline microstructure on the dry sliding wear ..
[16]
|
| 47.
Interaction Behaviors of Fibrinopeptide-A and Graphene with Differ..
[16]
|
| 48.
Computer Simulation of Ions Doped Hydroxyapatite: A Brief Review
[16]
|
| 49.
Biomimetic Mineralized Hierarchical Graphene Oxide/Chitosan Scaffo..
[16]
|
| 50.
Fabrication of high strength, antibacterial and biocompatible Ti-5..
[16]
|
| 51.
Cyclic phase transformation behavior of nanocrystalline NiTi at mi..
[16]
|
| 52.
Progress in 11β-HSD1 inhibitors for the treatment of metabolic di..
[16]
|
| 53.
Effects of V and Cu codoping on the tribological properties and ox..
[16]
|
| 54.
Effects of grain size on compressive behavior of NiTi polycrystall..
[15]
|
| 55.
Mussel-inspired graphene oxide nanosheet-enwrapped Ti scaffolds wi..
[15]
|
| 56.
Forced atomic mixing of immiscible Nb-Ag alloys by severe plastic ..
[15]
|
| 57.
Mussel-inspired nano-building block assemblies for mimicking extra..
[15]
|
| 58.
Resolving the Interface of Calcium Phosphate Formation on the Poro..
[15]
|
| 59.
Tribological and corrosion behaviors of bulk Cu-W nanocomposites f..
[15]
|
| 60.
Experimental and simulation studies of strontium/fluoride-codoped ..
[15]
|
| 61.
Achieving high strength and high ductility in a high-entropy alloy..
[15]
|
| 62.
Superelastic oxide micropillars enabled by surface tension–modula..
[15]
|
| 63.
Mussel-inspired cryogels for promoting wound regeneration through ..
[14]
|
| 64.
Transparent, Adhesive, and Conductive Hydrogel for Soft Bioelectro..
[14]
|
| 65.
Fabrication, tribological and corrosion behaviors of ultra-fine gr..
[14]
|
| 66.
Bioadhesive Microporous Architectures by Self-Assembling Polydopam..
[14]
|
| 67.
Laves phase strengthening in ultrafine-grained Co–Cr–Ta micropil..
[14]
|
| 68.
Direct measurement of the maximum pinning force during particle-gr..
[13]
|
| 69.
An Anisotropic Hydrogel Based on Mussel-Inspired Conductive Ferrof..
[13]
|
| 70.
Controllable phase transformation of fluoridated calcium phosphate..
[13]
|
| 71.
Sliding wear induced subsurface microstructural evolution in nanoc..
[12]
|
| 72.
Graphene oxide nanolayers as nanoparticle anchors on biomaterial s..
[12]
|
| 73.
Laser surface treatment-introduced gradient nanostructured TiZrHfT..
[12]
|
| 74.
Cancellous bone-like porous Fe@Zn scaffolds with core-shell-struct..
[11]
|
| 75.
A high strength, wear and corrosion-resistant, antibacterial and b..
[11]
|
| 76.
Ultrafine-grained Nb-Cu immiscible alloy implants for hard tissue ..
[11]
|
| 77.
Simultaneous enhancement of strength and ductility via microband f..
[11]
|
| 78.
In Situ Construction of an Ultra-Stable Conductive Composite Inter..
[11]
|
| 79.
高性能铌银纳米晶双相合金的制备及其在牙科中的应用
[10]
|
| 80.
Introducing Laves phase strengthening into an ultrafine-grained eq..
[10]
|
| 81.
A high strength and low modulus metastable beta Ti-12Mo-6Zr-2Fe al..
[10]
|
| 82.
Superior tolerance of nanocrystalline diamond films to Heavy-ion I..
[10]
|
| 83.
Quasi-saturation dependent wear resistance of nanocrystalline diam..
[10]
|
| 84.
Lithium-ion spontaneous exchange and synergistic transport in cera..
[10]
|
| 85.
Microstructure, Mechanical Properties, and Sliding Wear Behavior o..
[9]
|
| 86.
Nanoscale self-organization reaction in Cu-Ag alloys subjected to ..
[9]
|
| 87.
Mussel-inspired nanozyme catalyzed conductive and self-setting hyd..
[9]
|
| 88.
The Synergy of Topographical Micropatterning and Ta|TaCu Bilayered..
[9]
|
| 89.
Topographical biointerface regulating cellular functions for bone ..
[9]
|
| 90.
Grain boundary migration and Zener pinning in a nanocrystalline Cu..
[8]
|
| 91.
Bioinspired Highly Anisotropic, Ultrastrong and Stiff, and Osteoco..
[8]
|
| 92.
Three-dimensional alloy interface between Li6.4La3Zr1.4Ta0.6O12 an..
[8]
|
| 93.
Bioadhesive injectable hydrogel with phenolic carbon quantum dot s..
[8]
|
| 94.
Superelastic ferroelectric micropillar with large hysteresis and s..
[8]
|
| 95.
Loading rate effect on the shear behavior of the carbon fiber/epox..
[8]
|
| 96.
A study of degradation behaviour and biocompatibility of Zn—Fe al..
[7]
|
| 97.
Elevated mature osteoblastic 11 beta-HSD1 contributes to high-fat-..
[7]
|
| 98.
Atomic layer deposition of zinc oxide onto 3D porous iron scaffold..
[7]
|
| 99.
Fatigue-Resistant Heterogeneous Gradient Nanocrystalline NiTi Shap..
[7]
|
| 100.
Measurement of two-dimensional residual stress in nanocrystalline ..
[7]
|
