Title :
Multiexcitons in colloidal semiconductor nanocrystals
Author :
Osovsky, Ruth ; Cheskis, Dima ; Kloper, Viki ; Fradkin, Leonid ; Sashchiuk, Aldona ; Kroner, Martin ; Lifshitz, Efrat
Author_Institution :
Schulich Fac. of Chem., Technion - Israel Inst. of Technol., Haifa, Israel
Abstract :
The study of multiexcitons in colloidal quantum dots (CQDs) is a timely topic, as these multiexcitons have practical applications in gain devices, photovoltaic cells and as single photon light sources. However, these excitons decay primarily via nonradiative Auger relaxation at a time scale of 10-100 ps, due to the enhancement of many-body interactions inside dots with a typical diameter of 3-4 nm surrounded by low dielectric medium. Despite the predicted limitations, the present study unambiguously showed an emission of neutral biexciton (BX), triexciton (TX) and quandraexciton (QX) in a time-integrated micro-photoluminescence (mu-PL) spectrum of quasi-type II CdTe/CdSe CQDs. These CQDs offer the option of Auger relaxation suppression and an extension of multiexcitons´ lifetime. This upturn should permit charge extraction in photovoltaic cells and inversion of population in a gain device.
Keywords :
Auger effect; II-VI semiconductors; biexcitons; cadmium compounds; colloidal crystals; nanostructured materials; photoluminescence; semiconductor quantum dots; CdTe-CdSe; colloidal quantum dots; colloidal semiconductor nanocrystals; microphotoluminescence; multiexcitons; neutral biexciton; nonradiative Auger relaxation; population inversion; quandraexciton; quasitype II CdTe/CdSe CQD; size 3 mm to 4 mm; time 10 ps to 100 ps; triexciton; Chemistry; Excitons; Fiber lasers; Light sources; Nanocrystals; Nanotechnology; Photovoltaic cells; Pump lasers; Quantum dots; Solid state circuits;
Conference_Titel :
Lasers and Electro-Optics, 2009 and 2009 Conference on Quantum electronics and Laser Science Conference. CLEO/QELS 2009. Conference on
Conference_Location :
Baltimore, MD
Print_ISBN :
978-1-55752-869-8
Electronic_ISBN :
978-1-55752-869-8
