T.K. Tseng scite author profile

Semiconducting quantum dots, whose particle sizes are in the nanometer range, have very unusual properties. The quantum dots have band gaps that depend in a complicated fashion upon a number of factors, described in the article. Processing-structure-properties-performance relationships are reviewed for compound semiconducting quantum dots. Various methods for synthesizing these quantum dots are discussed, as well as their resulting properties. Quantum states and confinement of their excitons may shift their optical absorption and emission energies. Such effects are important for tuning their luminescence stimulated by photons (photoluminescence) or electric field (electroluminescence). In this article, decoupling of quantum effects on excitation and emission are described, along with the use of quantum dots as sensitizers in phosphors. In addition, we reviewed the multimodal applications of quantum dots, including in electroluminescence device, solar cell and biological imaging.

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Hybrid polymer-CdSe solar cells with a ZnO nanoparticle buffer layer for improved efficiency and lifetime

Liu

Yang

Zhou

et al. 2011

J. Mater. Chem.

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Ultrasonic Spray Pyrolysis for Synthesis of Spherical Zirconia Particles

Song

Tsai

Chen

et al. 2004

Journal of the American Ceramic Society

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This paper presents new findings on ultrasonic spray pyrolysis of zirconium hydroxyl acetate precursor drops whose sizes were precisely measured using laser light diffraction technique. Precursor concentration plays a predominant role in determination of product particle size. At 0.01 wt% precursor concentration, conventional spray pyrolysis at 750°C using precursor drops 5–8 μm in diameter, generated by an ultrasonic nebulizer at 2.66 MHz, yielded uniform spherical yttria‐stabilized zirconia (YSZ) particles 73 nm in diameter measured by scanning electron microscopy. The YSZ particle diameters were much smaller than those predicted by the one‐particle‐per‐drop mechanism. Under similar reaction conditions, the high‐throughput ultrasound‐modulated two‐fluid (UMTF) spray pyrolysis of larger precursor drops (28‐μm peak diameter) also yielded spherical dense particles; they were significantly smaller in size than those produced by the low‐throughput conventional ultrasonic spray pyrolysis of smaller drops (6.8‐μm peak diameter).

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T.K. Tseng

Quantum Dots and Their Multimodal Applications: A Review

Hybrid polymer-CdSe solar cells with a ZnO nanoparticle buffer layer for improved efficiency and lifetime

Ultrasonic Spray Pyrolysis for Synthesis of Spherical Zirconia Particles

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