Importance of the Heat Treatment Scheme on Self-Reducing Reactive Silver Inks

DiGregorio, Steven J.; Raikar, Subbarao; Hildreth, Owen J.

doi:10.1021/acsaelm.3c01082

Cited by 2 publications

(2 citation statements)

References 59 publications

(135 reference statements)

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“…Printing directly onto a hot substrate is vastly superior to post-print heat treatment schemes for self-reducing RSIs. 39 The substrate surface was at steady-state temperature before printing, and the substrates were removed from the heated stage immediately after printing. The measured substrate temperature was 105 °C for the ammonia ink and 61 °C for the ethylamine ink.…”

Section: Methodsmentioning

confidence: 99%

Reactive silver inks: a path to solar cells with 82% less silver

Martinez-Szewczyk,

DiGregorio,

Hildreth

et al. 2024

Energy Environ. Sci.

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Section: Methodsmentioning

confidence: 99%

Reactive silver inks: a path to solar cells with 82% less silver

Martinez-Szewczyk,

DiGregorio,

Hildreth

et al. 2024

Energy Environ. Sci.

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“…These shielding materials serve to protect electronic components against the harmful effects of radiation and prevent the interference of undesired signals. [ 1–7 ] In response to the requirements for EMI shielding, extensive research has been conducted on a diverse range of materials including metal films, [ 1,3,8–12 ] metal meshes, [ 9,13–19 ] metal nanowires, [ 20–22 ] carbon nanotubes, [ 23,24 ] graphene, [ 25 ] and MXenes. [ 26 ] Hybrid structures are also garnering increasing attention, [ 27–29 ] such as conductive oxide/metal, [ 30–32 ] MXene/metal, [ 33,34 ] and metal/graphene.…”

Section: Introductionmentioning

confidence: 99%

Single‐ and Double‐Layer Embedded Metal Meshes for Flexible, Highly Transparent Electromagnetic Interference Shielding

Zarei,

Li,

Papazekos

et al. 2024

Adv Materials Technologies

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Simulation and experimental studies are carried out on single‐layer and double‐layer embedded metal meshes (SLEMM and DLEMM) to assess their performance as transparent electromagnetic interference (EMI) shielding. The structures consist of silver meshes embedded in polyethylene terephthalate (PET). As a transparent electrode, SLEMMs exhibit a transparency of 82.7% and a sheet resistance of 0.61 Ωsq−1 as well as 91.0% and 1.49 Ωsq−1. This performance corresponds to figures of merit of 3101 and 2620, respectively. The SLEMMs achieve 48.0 dB EMI shielding efficiency (SE) in the frequency range of 8–18 GHz (X‐ and Ku‐bands) with 91% visible transmission and 56.2 dB EMI SE with 82.7% visible transmission. Samples exhibit stable performance after 1000 bending cycles with a radius of curvature of 4 mm and 60 tape test cycles. DLEMMs consist of fabricating SLEMM on opposite sides of the substrate where the distance can be varied using a spacer. Simulations are performed to investigate how varying spacer distance between two layers of metal meshes influences the EMI SE. DLEMMs are fabricated and achieved an EMI SE of 77.7 dB with 81.7% visible transmission. SLEMMs and DLEMMs may have a wide variety of applications in aerospace, medical, and military applications.

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Importance of the Heat Treatment Scheme on Self-Reducing Reactive Silver Inks

Cited by 2 publications

References 59 publications

Reactive silver inks: a path to solar cells with 82% less silver

Reactive silver inks: a path to solar cells with 82% less silver

Single‐ and Double‐Layer Embedded Metal Meshes for Flexible, Highly Transparent Electromagnetic Interference Shielding

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