Joon Hee Jo scite author profile

Joon Hee Jo

3Publications

17Citation Statements Received

52Citation Statements Given

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Yonsei University, Seoul Institute, Government of the Republic of Korea

Publications

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Assessing Stability of Nanocomposites Containing Quantum Dot/Silica Hybrid Particles with Different Morphologies at High Temperature and Humidity

Heo

Lee

2020

Chem. Mater.

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In this study, we investigate the photoluminescence stability of nanocomposites containing quantum dot (QD)/silica hybrid particles against high temperature and humidity. First, hybrid particles with different morphologies, such as silica/QD/silica (SQS), QD/mesoporous silica (MSQ), and QD/wrinkled silica (WSQ), were synthesized and dispersed in a commercially available silicone resin (Sylgard-184). We performed stability tests on these nanocomposites at 100 °C/85% RH for 72 h and found that their quantum efficiencies were maintained or even increased during the test, whereas a nanocomposite containing bare QDs exhibited a significant decrease in quantum efficiency. The enhancement in quantum efficiencies of the nanocomposites containing the MSQ and SQS particles was attributed to the photoactivation phenomenon. To further investigate the stability after exposure to heat and moisture, we measured quantum efficiencies of the photoactivated nanocomposites after storing them for 10 days under ambient conditions. Those efficiencies significantly decreased to values even lower than the initial values. However, quantum efficiency of the nanocomposite containing WSQ particles remained constant during and after the stability test because of the particle morphology. Therefore, we conclude that the nanocomposite containing the WSQ particles was most stable against high temperature and humidity and that the photoactivation was not desirable for the stability of nanocomposites, although it initially enhanced the photoluminescence properties.

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Enhancing efficiency of quantum dot/photoresist nanocomposite using wrinkled silica-quantum dot hybrid particles

Kim

et al. 2019

Chemical Engineering Journal

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Improvement in efficiency and stability of quantum dot/polymer nanocomposite film for light-emitting diodes using refractive index-controlled quantum dot–silica hybrid particles

Jeon

Yang

et al. 2019

J. Mater. Chem. C

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Joon Hee Jo

Assessing Stability of Nanocomposites Containing Quantum Dot/Silica Hybrid Particles with Different Morphologies at High Temperature and Humidity

Enhancing efficiency of quantum dot/photoresist nanocomposite using wrinkled silica-quantum dot hybrid particles

Improvement in efficiency and stability of quantum dot/polymer nanocomposite film for light-emitting diodes using refractive index-controlled quantum dot–silica hybrid particles

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