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New Quantum Dot Technology Improves Solar Cell Efficiency

New Quantum Dot Technology Improves Solar Cell Efficiency
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Chungnam
South-korea-general
Korea
Wonjong-lee
Soo-kwan-kim
Changyong-yim
Wonhwa-hong
Hyungju-ahn
Eonji-lee
Kyounghoon-kim
Jeongkyoum-kim

DGIST presents a new technology that remarkably enhances the electrical conductivity of solar cells!

DGIST presents a new technology that remarkably enhances the electrical conductivity of solar cells!
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South-korea
Chungnam
South-korea-general
Korea
Wonhwa-hong
Eonji-lee
Jeongkyoum-kim
Wonjong-lee
Jongmin-choi
Research-lab
Regional-innovation-leading-research-center
National-research-foundation-of-korea

DGIST Presents A New Technology That Remarkably Enhances The Electrical Conductivity Of Solar Cells!

A team led by Professor Jongmin Choi of the Department of Energy Science and Engineering has developed a “PbS quantum dot” that can.

South-korea
Chungnam
South-korea-general
Korea
Jeongkyoum-kim
Wonhwa-hong
Eonji-lee
Jongmin-choi
Wonjong-lee
Research-lab
National-research-council-of-science
National-research-foundation-of-korea

New quantum dot approach can enhance electrical conductivity of solar cells

A team led by Professor Jongmin Choi of the Department of Energy Science and Engineering has developed a PbS quantum dot that can rapidly enhance the electrical conductivity of solar cells. The findings are published in the journal Small.

Ji-lee
Jongmin-choi
Chungnam-national-university
Kyungpook-national-university
Department-of-energy-science
Professor-jongmin-choi
Energy-science
Professor-choi
Professor-changyong-lim
Energy-chemical-engineering
Professor-jongchul-lim
Energy-engineering

Nanotechnology Now - Press Release: Pushing the boundaries of colloidal quantum dots by making their sizes equal: Scientists demonstrate the relationship between optoelectronic performance and size uniformity in perovskite colloidal quantum dots

Nanotechnology Now Our NanoNews Digest Sponsors Home > Press > Pushing the boundaries of colloidal quantum dots by making their sizes equal: Scientists demonstrate the relationship between optoelectronic performance and size uniformity in perovskite colloidal quantum dots Younghoon kim, Ph.D. (Left) and Prof. Jongmin Choi(Right), DGIST. CREDIT DGIST Abstract: Quantum dots (QDs) are semiconductor particles only a few nanometers across that, thanks to their small size, exhibit peculiar optical and electronic properties due to quantum mechanics. With existing and foreseen applications in screens, lighting, lasers, and energy harvesting, research in quantum dots has been steadily progressing. In particular, colloidal QDs (CQDs) have been in the nanotechnology spotlight for over a decade.

Canada
South-korea
Toronto
Ontario
Republic-of-korea
Korea
Qds-cqds
Kyounghoon-kim
Jongmin-choi
Kwanghoon-choi
Jian-shi-research-group
Research-on

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