Amir Masoud Badkoobehhezaveh scite author profile

In this work, flexible electroluminescent devices (FELDs) are demonstrated using environmentally-friendly cellulose nanocrystal (CNC) substrates with a silver nanowire conductive network. The CNC sheets with drop-casted silver nanowires act as highly transparent conductive electrodes for an electroluminescent layer (a phosphorescent ink containing Cu/Br-doped ZnS microparticles). This phosphorescent device requires operating voltages as low as 7 V and achieves high luminance of up to 43 Cd m À2 (at 50 V). Furthermore, through impregnating the CNC host material with Rhodamine 6G or Thiazol Yellow G, different emission colors are achieved: blue, turquoise, green, and purple light emission having a broad (400-650 nm) luminescence spectrum are obtained. This device, which uses earth-abundant, cost-effective, and recyclable materials, is envisioned to lead to advancements in the areas of electronics and lighting technology.

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Characterization and Ethanol-Sensing Behavior of Nanostructured Vanadium Pentoxide Recovered from Oil Fly Ash

Nourizadeh

Noori

Mirazimi

et al. 2021

Int J Environ Res

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Electrophoretic deposition of Cu2ZnSn(S0.5Se0.5)4 films using solvothermal synthesized nanoparticles

Badkoobehhezaveh

Abdizadeh

Golobostanfard

2018

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Flexible Multi-Color Electroluminescent Devices on a Cellulose Nanocrystal Platform

Badkoobehhezaveh¹

2020

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