Laser based hybrid inkjet printing of nanoink for flexible electronics

Keyphrases

• Continuous-wave Laser 33%
• Electrically Conductive 33%
• Femtosecond Laser 33%
• Flexible Electronics 100%
• Functional Materials 33%
• Glass Substrate 33%
• Heated Substrate 33%
• Inkjet 33%
• Inkjet Printing 100%
• Jet Frequency 33%
• Laser Curing 33%
• Laser Irradiation 33%
• Laser-based 100%
• Liquid Evaporation 33%
• Liquid Solution 66%
• Local Heating 33%
• Microline 33%
• Monolayer-protected Gold Nanoparticle 33%
• Nano-ink 100%
• Nanoparticle Films 33%
• Nozzle Size 33%
• Polymer Substrate 33%
• Printed Electronics 33%
• Processing Methods 33%
• Pulsed Laser Beam 33%
• Reduction Temperature 33%
• Room-temperature Printing 33%
• Small Feature Size 66%
• Solution Form 33%
• Spreading Phenomena 33%
• Statistical Variation 33%
• Surface Monolayers 33%
• Thick Layer 33%
• Working Surface 33%

Engineering

• Conductive 33%
• Feature Size 66%
• Femtosecond Laser 33%
• Flexible Electronics 100%
• Form Solution 33%
• Glass Substrate 33%
• Gold Nanoparticle 33%
• High Resolution 33%
• Inkjet Printing 100%
• Laser Beams 33%
• Laser Curing 33%
• Laser Irradiation 33%
• Local Heating 33%
• Monolayers 33%
• Nanoparticle 33%
• Nozzle Size 33%
• Polymer Substrate 33%
• Processing Method 33%
• Pulsed Laser 33%
• Reduced Temperature 33%
• Room Temperature 33%
• Smallest Feature 66%
• Statistical Variation 33%
• Surface Work 33%
• Thick Layer 33%

Material Science

• Film 100%
• Functional Material 100%
• Gold Nanoparticle 100%
• Monolayers 100%
• Nanoparticle 100%
• Surface (Surface Science) 100%