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GrEM Members





 

Resercher

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Park A Reum

Biodiesel conversion catalysts 

piggy225@hanmail.com

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Hye Jeong Kim

연구 : CO2 adsorbant/membrane

이메일 : hyejeong36826@gmail.com

[1]"Carbon- Encapsulated Ni Catalysts for CO2 Methanation"

Korean Journal of Materials Research 31.9 (2021): 525-531.

Ph.D Candidate

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Dong Hyun Kim

연구 : DRM, WGS catalysts

이메일 : donghyun4310@o.cnu.ac.kr

[1]"Ni-Co alloy catalyst derived from NixCoy/MgAl2O4 via exsolution method for high coke resistance toward dry reforming of methane" 

Catalysis Today, 2023, 114337.

[2]"Solar-driven desalination using salt-rejecting plasmonic cellulose nanofiber membrane"

Journal of Colloid and Interface Science 634 (2023) 543–552.

[3]"One-pot synthesis of NiCo/MgAl2O4 catalyst for high coke-resistance in steam methane reforming: Optimization of Ni/Co ratio"

Catalysis Today 411-412 (2023) 113910.

[4]"Bifunctional metal doping engineering of Ni-supported alumina catalyst for dry methane reforming"

Journal of Environmental Chemical Engineering 10.3 (2022): 108058.

[5]"Oxygen defective bimodal porous Ni-CeO2-x-MgO-Al2O3 catalyst with multi-void spherical structure for CO2 reforming of CH4"

Journal of CO2 Utilization 58 (2022) 101917.

[6]"Carbon- Encapsulated Ni Catalysts for CO2 Methanation"

Korean Journal of Materials Research 31.9 (2021): 525-531.

[7]"Efficiency Enhancement of Electro- Adsorption Desalination Using Iron Oxide Nanoparticle-Incorporated Activated Carbon Nanocomposite"

Micromachines 12.10 (2021): 1148.

[8]"Design of zinc oxide nanoparticles and graphene hydrogel co-incorporated activated carbon for efficient capacitive deionization"

Separation and Purification Technology 277 (2021): 119428.

[9]"Harvesting of Oliagenous Microalgae Chlorella sp. by CaCO3 Mineralization"

Korean Journal of Materials Research 31.7 (2021): 386-391.

[10]"Photothermal Fabrics for Efficient Oil-Spill Remediation via Solar-driven Evaporation Combined with Adsorption"

ACS Applied Materials & Interfaces 13.11 (2021): 13106-13113.

[11]"One-pot synthesis of activated carbon decorated with ZnO nanoparticles for capacitive deionization application"

Journal of Alloys and Compounds 870 (2021): 159422.

[12]"Cheap, Facile, and Upscalable Activated Carbon-based Photothermal Layers for Solar Steam Generations" 

RSC advances 10.69 (2020): 42432-42440.

[13]"Solar-driven Steam Generation via Cellulose Fiber and Au/Ag Nanoparticle-based Light Absorber" 

POLYMER-KOREA 44.3 (2020): 377-383.

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Bon-Jun Ku

연구 : Solar to steam, DRM, WGS catalysts

이메일 : Kubj9333@gmail.com

[1]"Cellulose Nanofiber-Polyethylenimine Nanocomposite-Based Coating Material with High Salt-Resistance for Solar-Desalination"

Polym. Korea, Vol. 47, no. 2, p. 157-163 (2023).

[2]"Solar-driven desalination using salt-rejecting plasmonic cellulose nanofiber membrane"

Journal of Colloid and Interface Science 634 (2023) 543–552.

[3]"Photothermal Fabrics for Efficient Oil-Spill Remediation via Solar-driven Evaporation Combined with Adsorption"

ACS Applied Materials & Interfaces 13.11 (2021): 13106-13113.

[4]"Cheap, Facile, and Upscalable Activated Carbon-based Photothermal Layers for Solar Steam Generations" 

RSC advances 10.69 (2020): 42432-42440.

[5]"Solar-driven Steam Generation via Cellulose Fiber and Au/Ag Nanoparticle-based Light Absorber" 

POLYMER-KOREA 44.3 (2020): 377-383.

[6]"Black Diatom Colloids toward Efficient Photothermal Converters for Solar-to-Steam Generation"

ACS applied materials & interfaces 11.4 (2019): 4531-4540.

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Siranuysh Badalyan

연구 : Solar to steam, DRM, WGS catalysts

이메일 : siranuysh.badalyan@gmail.com

[1]"Ferrous-immobilized iron saccharide complexes for electro-synthesis of ammonia via NORR"

Chemical Engineering Journal 2023 August 22, 145578 (2023)

[2]"Cellulose Nanofiber-Polyethylenimine Nanocomposite-Based Coating Material with High Salt-Resistance for Solar-Desalination"

Polym. Korea, Vol. 47, no. 2, p. 157-163 (2023).

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Hyung Kyu Park

연구 : Small nuclear reactor

이메일 : hgpark@nrf.re.kr

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Kyu Sub Song

연구 : Ammonia combustion

이메일 : hgpark@nrf.re.kr

M.S. Candidate

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Jeong Min Kim    (more)

연구 : DRM catalysts

이메일 : kjm6781@naver.com

[1]"Effect of Sr Incorporation and Ni Exsolution on Coke Resistance of the Ni/Sr–Al2O3 Catalyst for Dry Reforming of Methane"

ACS Sustainable Chemistry&Engineering 2023 November 30, (2023)

[2]"Bifunctional metal doping engineering of Ni-supported alumina catalyst for dry methane reforming"

Journal of Environmental Chemical Engineering 10.3 (2022): 108058.

[3]"Ni-Co alloy catalyst derived from NixCoy/MgAl2O4 via exsolution method for high coke resistance toward dry reforming of methane" 

Catalysis Today, 2023, 114337.

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Yong Jun Kim

 

연구 : DRM catalysts

이메일 : yjkimrelentless@naver.com

[1]"Ni-Co alloy catalyst derived from NixCoy/MgAl2O4 via exsolution method for high coke resistance toward dry reforming of methane" 

Catalysis Today, 2023, 114337.

 

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Ui Dam Jun

연구 : CNT production

이메일 : doe06019@naver.com

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Ye Ji Gwon

연구 : DRM catalysts

이메일 : izjey408@gmail.com

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