A Low Curing Temperature Silver Ink for Use in Ink‐Jet Printing and Subsequent Production of Conductive Tracks

Dearden, Angela L.; Smith, Patrick J.; Shin, Dong-Youn; Reis, Nuno; Derby, Brian; O’Brien, Paul

doi:10.1002/marc.200400445

Cited by 299 publications

(212 citation statements)

References 11 publications

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“…Dearden et al [193] reported inkjet printing of solutions of Ag neodecanoate. Preparation of the ink involved the straightforward synthesis of the Ag salt followed by its dissolution in xylene.…”

Section: Silver Inksmentioning

confidence: 99%

Metal-based Inkjet Inks for Printed Electronics

Kamyshny¹,

Steinke²,

Magdassi

2011

TOAPJ

370

242

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Abstract:A review on applications of metal-based inkjet inks for printed electronics with a particular focus on inks containing metal nanoparticles, complexes and metallo-organic compounds. The review describes the preparation of such inks and obtaining conductive patterns by using various sintering methods: thermal, photonic, microwave, plasma, electrical, and chemically triggered. Various applications of metal-based inkjet inks (metallization of solar cell, RFID antennas, OLEDs, thin film transistors, electroluminescence devices) are reviewed.

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Section: Silver Inksmentioning

confidence: 99%

Metal-based Inkjet Inks for Printed Electronics

Kamyshny¹,

Steinke²,

Magdassi

2011

TOAPJ

370

242

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“…Many polymer thin films, containing noble metal nanoparticles, have been prepared by reducing polymer metal chelate films such as polyaniline/Au, poly(vinyl alcohol)/ Ag, poly(acrylic acid)/Cu. [14][15][16] The use of silver organic complexes has also been reported as a new method of obtaining silver nanoparticles and conductive silver tracks and coatings, where silver carboxylate 17 and silver alkylcarbamate complexes 18,19 are reduced to silver metal simply by heating.…”

Section: Introductionmentioning

confidence: 99%

Preparation of Ag/PVP Nanocomposites as a Solid Precursor for Silver Nanocolloids Solution

Hong¹,

Park²,

Gong³

2010

Bulletin of the Korean Chemical Society

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A polyvinylpyrrolidone (PVP)/Ag nanocomposites was prepared by the simultaneous thermal reduction and radical polymerization route. The in situ synthesis of the Ag/PVP nanocomposites is based on the finding that the silver n-propylcarbamate (Ag-PCB) complex can be directly dissolved in the NVP monomer, and decomposed by only heat treatment in the range of 110 to 130 o C to form silver metal. Silver nanoparticles with a narrow size distribution (5 -40 nm) were obtained, which were well dispersed in the PVP matrix. A successful synthesis of Ag/PVP nanocomposites then proceeded upon heat treatment as low as 110 o C. Moreover, important advantages of the in situ synthesis of Ag/PVP composites include that no additives (e.g. solvent, surface-active agent, or reductant of metallic ions) are used, and that the stable silver nanocolloid solution can be directly prepared in high concentration simply by dissolving the Ag/PVP nanocomposites in water or organic solvent.

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“…Experiments using more concentrated metal colloids are underway with the objective of electrohydrodynamic deposition of even finer conductive tracks. (29) colloid solution 3nm -5μm Laser direct write (30) Gold Ink --8μm Ink-jet Printing (7) Gold nanoparticles in toluene 2-5nm 30 15μm Ink-jet Printing (31) Gold nanoparticles in toluene 2-4nm 30 20μm Ink-jet Printing (32) Gold nanoparticles in toluene 5-20nm 30-50 100μm Ink-jet Printing (33) Gold nanoparticles in toluene 2-4nm 30 125μm Ink-jet Printing (34) Silver nanoparticles in ␣-terpineol 5-7nm 10 100μm Ink-jet Printing (35) Silver nanoparticles in toluene 1-10nm 30 120μm Ink-jet Printing (36) Silver ink in xylene -16 160μm Ink-jet Printing (37) Silver nanodispersion 50nm 8 1.5mm Microcontact Printing (38) Copper --500nm Chemical Vapor Deposition (39) Copper --1μm…”

Section: Resultsmentioning

confidence: 99%

Printing gold nanoparticles with an electrohydrodynamic direct-write device

et al. 2006

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A dispersion containing 15nm gold particles in ethanol was subjected to electrohydrodynamic atomization, producing droplets with an average size of ~2 6m as measured by laser diffraction. An electrohydrodynamic direct-write device was used to deposit the dispersion onto silicon wafers with the intention of printing gold tracks. Immediately after deposition ethanol evaporated, leaving the gold particles organised in a ~7 5m wide central region surrounded by two regions, each ~5 0m wide, at the edge of which two further gold tracks, each ~7 m existed.

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A Low Curing Temperature Silver Ink for Use in Ink‐Jet Printing and Subsequent Production of Conductive Tracks

Cited by 299 publications

References 11 publications

Metal-based Inkjet Inks for Printed Electronics

Metal-based Inkjet Inks for Printed Electronics

Preparation of Ag/PVP Nanocomposites as a Solid Precursor for Silver Nanocolloids Solution

Printing gold nanoparticles with an electrohydrodynamic direct-write device

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