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Type |
Poster Presentation |
Area |
Material Chemistry |
Room No. |
Exhibition Hall 2 |
Time |
4월 19일 (금요일) 11:00~12:30 |
Code |
MAT.P-479 |
Subject |
Optical and Magnetic Properties of Self-Doped CdxHg1-xSe Alloy Nanocrystals |
Authors |
Dongsun Choi, Kwang Seob Jeong* Department of Chemistry, Korea University, Korea |
Abstract |
The researches of colloidal quantum dots (CQDs) focused on the bandgap transition for decades. The first steady state mid-IR intraband transition from the mercury system was reported by Jeong et al. in 2014. The recent research has substantiated that the self-doping property leads the intraband transition in the nanocrystal. In this poster, I will present the mid-IR photoluminescence and magnetism of self-doped CdxHg1-xSe alloy nanocrystals.
The CdHgSe alloy nanocrystals have the electronic transition progressively shift from visible to the mid-IR localized surface plasmon resonance (LSPR) by increasing the quantity of mercury substitution in the CdSe nanocrystals. The visible emission from nanocrystal is red shifted, and the average lifetime increased as Hg substituent ratio accretion. The further increment of the mercury ratio in the alloy change the major transition to the mid-IR region and successfully measured the mid-IR photoluminescence with the home-built mid-infrared spectrometer. Surprisingly, the mid-IR emissive alloy nanocrystal showed singly-occupied quantum-state from the EPR measurement, and free electron signal as the LSPR revelation, respectively. The photoresponsivity of the fabricated device also confirmed the LSPR development from the alloy nanocrystal. The self-doping study, therefore, gives the novel opportunity to research the change in the electron properties when the material character alters from semiconductors, semi-metals, to metals.
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E-mail |
sunny880414@gmail.com |
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