Articles for sale

#7332. In situ self-reducing Ag₂O ink for the fabrication of highly flexible printed conductors

October 2026	publication date
Proposal available till	28-05-2025
4 total number of authors per manuscript	0 $

The title of the journal is available only for the authors who have already paid for

Journal’s subject area:

Mechanical Engineering; Condensed Matter Physics; Mechanics of Materials; Materials Science (all);

Places in the authors’ list:

place 1	place 2	place 3	place 4
Free	Free	Free	Free
2350 $	1200 $	1050 $	900 $
Contract №7332.1	Contract №7332.2	Contract №7332.3	Contract №7332.4

1 place - free (for sale)
2 place - free (for sale)
3 place - free (for sale)
4 place - free (for sale)

Abstract:
To solve the high cost and high sintering temperature of Ag nanoparticle inks and the poor storage stability of Ag precursor inks, an inexpensive and self-reducing Ag2O ink was designed for fabricating highly flexible printed conductors at low sintering temperature. The printed Ag2O inks can be in-situ reduced to Ag particles and form the conductive network, and the electrical properties and flexibility of the sintered Ag tracks were systematically investigated.
Keywords:
Ag tracks; Ag2O ink; Conductivity; Flexibility; Flexible printed conductors; Low temperature sintering

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