Keyphrases
Magnesium Alloy
100%
Surface Morphology
75%
Fuel Cell
75%
Magnesium
75%
Women in Engineering
50%
Biomaterials
50%
High School Students
50%
Effective Method
50%
Corrosion Resistance
50%
Biointegration
50%
Female Students
50%
Nanomorphology
50%
Hydrogen Storage
25%
Sacrificial Anode
25%
Lightweight Materials
25%
Corrosion Rate
25%
Nanoengineering
25%
Specific Surface
25%
Neutral Environment
25%
Area Roughness
25%
Orthodontics
25%
Wear Resistance
25%
Women Graduates
25%
Engineered Materials
25%
Microstructure
25%
Biodegradability
25%
Exchange Students
25%
Morphological Structure
25%
Surface Porosity
25%
Nanoscale Surface
25%
Mechanistic Understanding
25%
Automotive Applications
25%
Micro-nano
25%
Electronic Applications
25%
Drug Delivery
25%
Resistance Resistance
25%
Tailored Surfaces
25%
Bioabsorbable Materials
25%
Structural Chemistry
25%
Senior Thesis
25%
Micromorphology
25%
Clean Environment
25%
Engineering Properties
25%
Complex Interactions
25%
Biodegradable Materials
25%
Deposited Material
25%
Mg Alloy
25%
Postdoctoral Scholars
25%
Corrosive Wear
25%
Enhanced Surface Area
25%
Health Care Costs
25%
Surface Characteristics
25%
Biomedical Implants
25%
Battery-type Electrode
25%
Cardiovascular Implantable Electronic Devices
25%
Main Application
25%
Biomimetic
25%
Strength-to-weight Ratio
25%
Orthopedics
25%
Penn State
25%
Bioapplications
25%
High Strength
25%
Hydrogen Storage Materials
25%
Aerospace Applications
25%
Engineering
Hydrogen Storage
100%
Fuel Cell
100%
Engineering
66%
Female Student
66%
School Student
66%
Surface Morphology
66%
Nanoscale
33%
Lightweight Material
33%
Seniors
33%
Related Application
33%
Engineering Property
33%
Deposited Material
33%
Main Application
33%
Health Care
33%
Implant
33%
Corrosion Rate
33%
Biomimetics
33%
Wear Resistance
33%
Automotives
33%
Material Science
Magnesium Alloy
100%
Magnesium
100%
Surface Morphology
66%
Magnesium Alloys
66%
Corrosion Resistance
66%
Biomaterial
66%
Wear Resistance
33%
Anode
33%
Surface Property
33%
Hydrogen Storage Material
33%
Corrosion
33%
Micro Surface
33%