Energy transfer in monodisperse quantum dot solids in the presence of self-organized array of metallic nanoparticles

机译：在自组织的金属纳米颗粒阵列存在下单分散量子点固体中的能量转移

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We examined the interdot energy transfer between monodisperse quantum dots under different degrees of plasmonic effects (plasmonic field enhancement and Forster energy transfer from quantum dots to metallic nanoparticles). For this we studied emission of CdSe/ZnS quantum dots deposited on substrates containing self-organized arrays of gold nanoislands with radially distributed sizes gradually reduced from the centers of the substrates to their sides. The results suggest how metallic nanoparticles can be used to enhance interdot energy transfer in monodisperse quantum dots and how this process can explain some of the spectral changes seen in the emission of quantum dots when they are close to the metallic nanoparticles.

机译：我们研究了在不同程度的等离子体效应（等离子体场增强和从量子点到金属纳米粒子的Forster能量转移）下单分散量子点之间的点间能量转移。为此，我们研究了沉积在包含自组织金纳米岛阵列的基底上的CdSe / ZnS量子点的发射，该阵列的径向分布尺寸从基底中心到其侧面逐渐减小。结果表明，金属纳米颗粒如何可用于增强单分散量子点中的点间能量传递，以及该过程如何解释当量子点靠近金属纳米颗粒时在发射量子点时看到的某些光谱变化。

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来源
《Quantum dots and nanostructures: synthesis, characterization, and modeling X》|2013年|86340K.1-86340K.7|共7页
会议地点 San Francisco CA(US)
作者
S. M. Sadeghi; R. G. West;
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作者单位

Department of Physics, University of Alabama in Huntsville, Huntsville, AL 35899, USA,Nano and Micro Device Center, University of Alabama in Huntsville, Huntsville, AL, 35899, USA;

Department of Physics, University of Alabama in Huntsville, Huntsville, AL 35899, USA;

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正文语种 eng
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quantum dots; plasmonic; effects; template; energy transfer; interdot; self organized; nano-islands; substrate;

机译：量子点;等离子体效果;模板;能量转移；圆点自组织纳米岛基质;

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专利

1. Temperature-tuning of near-infrared monodisperse quantum dot solids at 1.5 mu m for controllable Forster energy transfer [J] . Bose R, McMillan JF, Gao J, Nano letters . 2008,第7期

机译：1.5微米近红外单分散量子点固体的温度调节，可控的福斯特能量转移
2. Influence of quantum dot concentration on Forster resonant energy transfer in monodispersed nanocrystal quantum dot monolayers [J] . Manuela Lunz, A. Louise Bradley, Wei-Yu Chen, Physical review . 2010,第20期

机译：量子点浓度对单分散纳米晶体量子点单层中Forster共振能量转移的影响
3. Collective and local energy transfer in biologically-hybridized systems of semiconductor quantum dots and metallic nanoantenna arrays [J] . Sadeghi Seyed M., Gutha Rithvik R., Sharp Christina, Journal of Physics, D. Applied Physics: A Europhysics Journal . 2018,第41期

机译：半导体量子点和金属纳米纳米阵列的生物学 - 杂交系统中的集体和局部能量转移
4. Energy transfer in monodisperse quantum dot solids in the presence of self-organized array of metallic nanoparticles [C] . S. M. Sadeghi, R. G. West Conference on quantum dots and nanostructures: synthesis, characterization, and modeling X . 2013

机译：单分散量子点固体中的能量转移在存在自组织的金属纳米粒子阵列中
5. Excitation energy transfer in quantum-dot solids. [D] . Al-Ahmadi, Ameenah N. 2006

机译：量子点固体中的激发能转移。
6. Reversible Charge-Carrier Trapping Slows FörsterEnergy Transfer in CdSe/CdS Quantum-Dot Solids [O] . Federico Montanarella, Margherita Biondi, Stijn O. M. Hinterding, -1

机译：可逆电荷载流子陷阱减慢了福斯特CdSe / CdS量子点固体中的能量转移
7. Temperature-tuning of near-infrared monodisperse quantum dot solids at 1.5 um for controllable Forster energy transfer [O] . Bose, Ranojoy, McMillan, James F., Gao, Jie, 2008

机译：近红外单分散量子点固体的温度调节 1.5微米，用于可控的福斯特能量传递

Energy transfer in monodisperse quantum dot solids in the presence of self-organized array of metallic nanoparticles

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