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Rheological and sedimentation behaviour of nanosilver colloids for inkjet printing

Tamjid, E ; Sharif University of Technology | 2010

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  1. Type of Document: Article
  2. DOI: 10.1504/IJNM.2010.033881
  3. Publisher: 2010
  4. Abstract:
  5. Inkjet printing of colloidal metals is an attractive method for direct patterning of electrically conductive structures and interconnects in electronic devices, owing to low-cost, low-waste and simplicity of the process. In the present work, mixtures of well-dispersed silver nanoparticles and ethylene glycol were prepared for the inkjet printing process. Three different surfactants including PVP, MSA and AOT were added to study the stability of the nanosilver colloids. The effect of high-intensity ultrasonic treatment and temperature on the rheological properties was investigated utilising a rheometer in plate-plate geometry. It is shown that the viscosity of the ink increases with increasing the volume fraction of the silver nanoparticles and decreases with increasing temperature in an Arrhenius relationship. The shear stress-strain curves show a pseudo-plastic behaviour, indicating the breakage of the nanoparticles agglomerates due to the applied shear stress. The sedimentation analysis indicates the better stabilisation effect of PVP, which is suitable for the printing process
  6. Keywords:
  7. Colloid ; Arrhenius relationship ; Colloidal metals ; Direct-patterning ; Electrically conductive ; Electronic device ; High intensity ultrasonic ; Inkjet printing process ; Nano silver ; Plastic behaviour ; Plate geometry ; Rheological property ; Sedimentation analysis ; Silver nanoparticles ; Stabilisation ; Well-dispersed ; Agglomeration ; Colloid chemistry ; Elasticity ; Ethylene ; Ethylene glycol ; Ink ; Ink jet printers ; Ink jet printing ; Nanoparticles ; Plates (structural components) ; Printing presses ; Rheology ; Sedimentation ; Shear stress ; Strength of materials ; Stress-strain curves ; Surface active agents ; Viscosity ; Silver
  8. Source: International Journal of Nanomanufacturing ; Volume 5, Issue 3-4 , 2010 , Pages 383-392 ; 17469392 (ISSN)
  9. URL: http://www.inderscienceonline.com/doi/abs/10.1504/IJNM.2010.033881