SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2786334518> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W2786334518 endingPage "1256" @default.
W2786334518 startingPage "1247" @default.
W2786334518 abstract "Gold electrodes are important in some devices and certain applications where an inert, highly conductive feature is required. An aqueous gold nanoparticle (AuNP) ink suitable for inkjet printing was synthesized and formulated using starch and microwave-assisted heating. By varying the hydrolysis conditions of starch, the size, yield, and stability of the AuNP suspension can be controlled and optimized to achieve a jettable ink. The optimized formulation has a very low starch loading of only 1.75 wt % relative to gold, forming a highly stable AuNP ink, which upon drying already forms a very conductive film and sinters at low temperature. The overall synthesis protocol thus provides a greener and cheaper alternative to other AuNP synthesis methods. The sintering behavior of the film was monitored, wherein, upon heating, starch is degraded, crystallite growth increased, and the morphology changed from individual nanoparticles to a network of fused particles. The film sheet resistance decreased concomitant with these physical changes. By heating the film to at least 200 °C, a sheet resistance of <1.0 Ω/□ is achieved. This aqueous-formulated ink, therefore, offers an alternative to the usual organic solvent ink formulations used in printed electronics. It proved printing of conductive films on various substrates for possible applications in flexible electronic devices." @default.
W2786334518 created "2018-02-23" @default.
W2786334518 creator A5005312556 @default.
W2786334518 creator A5006105220 @default.
W2786334518 creator A5049697481 @default.
W2786334518 creator A5061107587 @default.
W2786334518 creator A5072310894 @default.
W2786334518 creator A5081770170 @default.
W2786334518 date "2018-02-07" @default.
W2786334518 modified "2023-10-05" @default.
W2786334518 title "Controlled Microwave-Hydrolyzed Starch as a Stabilizer for Green Formulation of Aqueous Gold Nanoparticle Ink for Flexible Printed Electronics" @default.
W2786334518 cites W1246090344 @default.
W2786334518 cites W1846097971 @default.
W2786334518 cites W1965439712 @default.
W2786334518 cites W1966177413 @default.
W2786334518 cites W1970847228 @default.
W2786334518 cites W1971714436 @default.
W2786334518 cites W1977054691 @default.
W2786334518 cites W1977738241 @default.
W2786334518 cites W1981336577 @default.
W2786334518 cites W1983935837 @default.
W2786334518 cites W1985464334 @default.
W2786334518 cites W1986309772 @default.
W2786334518 cites W1990364480 @default.
W2786334518 cites W1994278002 @default.
W2786334518 cites W1996613237 @default.
W2786334518 cites W2006919552 @default.
W2786334518 cites W2007298573 @default.
W2786334518 cites W2007537214 @default.
W2786334518 cites W2012649076 @default.
W2786334518 cites W2013629320 @default.
W2786334518 cites W201390207 @default.
W2786334518 cites W2015681134 @default.
W2786334518 cites W2017697484 @default.
W2786334518 cites W2020440433 @default.
W2786334518 cites W2024402470 @default.
W2786334518 cites W2025692933 @default.
W2786334518 cites W2035484170 @default.
W2786334518 cites W2037217532 @default.
W2786334518 cites W2040101303 @default.
W2786334518 cites W2041718188 @default.
W2786334518 cites W2043564599 @default.
W2786334518 cites W2044440155 @default.
W2786334518 cites W2054126166 @default.
W2786334518 cites W2057241314 @default.
W2786334518 cites W2062145357 @default.
W2786334518 cites W2070103852 @default.
W2786334518 cites W2072097835 @default.
W2786334518 cites W2073388665 @default.
W2786334518 cites W2075210471 @default.
W2786334518 cites W2077049418 @default.
W2786334518 cites W2077640466 @default.
W2786334518 cites W2086046115 @default.
W2786334518 cites W2088354065 @default.
W2786334518 cites W2088573979 @default.
W2786334518 cites W2091738688 @default.
W2786334518 cites W2093097209 @default.
W2786334518 cites W2093983804 @default.
W2786334518 cites W2108154510 @default.
W2786334518 cites W2130172689 @default.
W2786334518 cites W2152516856 @default.
W2786334518 cites W2154642113 @default.
W2786334518 cites W2162014121 @default.
W2786334518 cites W2163069407 @default.
W2786334518 cites W2163314328 @default.
W2786334518 cites W2227388478 @default.
W2786334518 cites W2253641551 @default.
W2786334518 cites W2279990638 @default.
W2786334518 cites W2313423371 @default.
W2786334518 cites W2320892508 @default.
W2786334518 cites W2327526323 @default.
W2786334518 cites W2328038229 @default.
W2786334518 cites W2330500219 @default.
W2786334518 cites W2332255168 @default.
W2786334518 cites W2334086406 @default.
W2786334518 cites W2335307920 @default.
W2786334518 cites W2343724914 @default.
W2786334518 cites W2409230372 @default.
W2786334518 cites W2511713818 @default.
W2786334518 cites W2530434026 @default.
W2786334518 cites W2556470982 @default.
W2786334518 cites W2568357412 @default.
W2786334518 cites W2572002305 @default.
W2786334518 cites W2600895512 @default.
W2786334518 cites W2605097459 @default.
W2786334518 cites W2619812792 @default.
W2786334518 cites W2739067653 @default.
W2786334518 cites W623094255 @default.
W2786334518 doi "https://doi.org/10.1021/acsanm.7b00379" @default.
W2786334518 hasPublicationYear "2018" @default.
W2786334518 type Work @default.
W2786334518 sameAs 2786334518 @default.
W2786334518 citedByCount "27" @default.
W2786334518 countsByYear W27863345182018 @default.
W2786334518 countsByYear W27863345182019 @default.
W2786334518 countsByYear W27863345182020 @default.
W2786334518 countsByYear W27863345182021 @default.
W2786334518 countsByYear W27863345182022 @default.