Seong Chae Park scite author profile

Seong Chae Park

3Publications

66Citation Statements Received

85Citation Statements Given

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Affiliations

Seoul National University of Science and Technology, Seoul National University, Advanced Institute of Convergence Technology

Publications

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Roll-to-Roll Laser-Printed Graphene–Graphitic Carbon Electrodes for High-Performance Supercapacitors

Kang

Lim

Park

et al. 2017

ACS Appl. Mater. Interfaces

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Carbon electrodes including graphene and thin graphite films have been utilized for various energy and sensor applications, where the patterning of electrodes is essentially included. Laser scribing in a DVD writer and inkjet printing were used to pattern the graphene-like materials, but the size and speed of fabrication has been limited for practical applications. In this work, we devise a simple strategy to use conventional laser-printer toner materials as precursors for graphitic carbon electrodes. The toner was laser-printed on metal foils, followed by thermal annealing in hydrogen environment, finally resulting in the patterned thin graphitic carbon or graphene electrodes for supercapacitors. The electrochemical cells made of the graphene-graphitic carbon electrodes show remarkably higher energy and power performance compared to conventional supercapacitors. Furthermore, considering the simplicity and scalability of roll-to-roll (R2R) electrode patterning processes, the proposed method would enable cheaper and larger-scale synthesis and patterning of graphene-graphitic carbon electrodes for various energy applications in the future.

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Efficient heat generation in large-area graphene films by electromagnetic wave absorption

Kang

Choi

Lee³

et al. 2017

2D Mater.

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Graphene has been intensively studied due to its outstanding electrical and thermal properties. Recently, it was found that the heat generation by Joule heating of graphene is limited by the conductivity of graphene. Here we suggest an alternative method to generate heat on a large-area graphene film more efficiently by utilizing the unique electromagnetic (EM) wave absorption property of graphene. The EM wave induces an oscillating magnetic moment generated by the orbital motion of moving electrons, which efficiently absorbs the EM energy and dissipate it as a thermal energy. In this case, the mobility of electron is more important than the conductivity, because the EMinduced diamagnetic moment is directly proportional to the speed of electron in an orbital motion. To control the charge carrier mobility of graphene we functionalized substrates with self-assembled monolayers (SAM). As the result, we find that the graphene showing the Dirac voltage close to zero can be more efficiently heated by EM waves. In addition, the temperature gradient also depends on the number of graphene. We expect that the efficient and fast heating of graphene films by EM waves can be utilized for smart heating windows and defogging windshields.

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Defect-engineered MoS₂ with extended photoluminescence lifetime for high-performance hydrogen evolution

et al. 2019

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Seong Chae Park

Roll-to-Roll Laser-Printed Graphene–Graphitic Carbon Electrodes for High-Performance Supercapacitors

Efficient heat generation in large-area graphene films by electromagnetic wave absorption

Defect-engineered MoS₂ with extended photoluminescence lifetime for high-performance hydrogen evolution

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Seong Chae Park

Roll-to-Roll Laser-Printed Graphene–Graphitic Carbon Electrodes for High-Performance Supercapacitors

Efficient heat generation in large-area graphene films by electromagnetic wave absorption

Defect-engineered MoS2 with extended photoluminescence lifetime for high-performance hydrogen evolution

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Product

Resources

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Defect-engineered MoS₂ with extended photoluminescence lifetime for high-performance hydrogen evolution