PVK:DBVP掺杂体系的能量转移及发光性质的研究

研究了不同比例的PVK与齐聚PPV衍生物DBVP掺杂体系的能量转移和发光特性.通过对PVK，DBVP及PVK: DBVP掺杂体系的UV-vis，PL和PLE光谱的研究，分析了PVK与DBVP之间的能量转移过程.利用PVK在体系中类似于溶剂的分散作用，制备了结构为ITO/PEDOT/PVK: DBVP/LiF/Al的电致发光器件，研究了掺杂体系的电致发光性能.结果表明，在掺杂体系的光致发光和电致发光中，PVK的发射被有效地抑制，PVK与DBVP之间发生了非常有效的能量转移，通过调节PVK与DBVP的比例，可以获得蓝色和绿色发光，同时可以改善器件的发光性能，当PVK与DBVP的重量比为1∶2时，器件的绿色发光效率达到1.06cd/A，此时发光亮度为52cd/m².     

PVK∶DBVP掺杂体系的能量转移及发光性质的研究

研究了不同比例的PVK与齐聚PPV衍生物DBVP掺杂体系的能量转移和发光特性.通过对PVK,DBVP及PVK:DBVP掺杂体系的UV-vis,PL和PLE光谱的研究,分析了PVK与DBVP之间的能量转移过程.利用PVK在体系中类似于溶剂的分散作用,制备了结构为ITO/PEDOT/PVK:DBVP/LiF/Al的电致发光器件,研究了掺杂体系的电致发光性能.结果表明,在掺杂体系的光致发光和电致发光中,PVK的发射被有效地抑制,PVK与DBVP之间发生了非常有效的能量转移,通过调节PVK与DBVP的比例,可以获得蓝色和绿色发光,同时可以改善器件的发光性能,当PVK与DBVP的重量比为1∶2时,器件的绿色发光效率达到1·06cd/A,此时发光亮度为52cd/m2.     

Be掺杂InAs自组织量子点的发光特性

首次细致地研究了InAs量子点中直接掺杂Be对其发光特性的影响.光致发光(PL)谱的研究表明, 较低掺杂浓度时, 发光峰蓝移, 同时伴随着发光谱线变窄.而较高浓度的掺杂会对量子点的光谱特性产生不良的影响, 发光强度明显变弱.相信该研究对InAs自组织量子点在器件应用方面有很重要的意义.     

Ir(Fppy)_3掺杂PVK体系发光特性的研究

对蓝色磷光材料Ir(Fppy)3不同浓度掺杂PVK薄膜的光致发光(PL)和电致发光(EL)特性进行了研究。并制备了结构为ITO/PEDOT:PSS/PVK:Ir(Fppy)3/BCP/Alq3/LiF/Al的蓝色磷光有机电致发光器件。实验结果发现,磷光材料掺杂浓度不同,器件发光特性不同。当Ir(Fppy)3掺杂浓度比较低时,EL光谱中可以观察到PVK较弱的发光;当Ir(Fppy)3掺杂浓度较高时,会发生浓度猝灭;当Ir(Fppy)3掺杂浓度比较适中时,EL光谱中观察不到PVK的发光,只有Ir(Fppy)3的发光。通过I-V-L特性的比较,当掺杂浓度为4%时,器件的光电特性最好。     

Be掺杂InAs处组织量子点的发光特性

首次细致地研究了ＩｎＡｓ量子点中直接掺杂Ｂｅ对其发光特性的影响。光致发光（ＰＬ）谱的研究表明,较低掺杂浓度时,发光峰蓝移,同时伴随着发光谱线变窄。而较高浓度的掺杂会对量子点的光谱特性产生不良的影响,发光强度明显变弱。相信该研究对ＩｎＡｓ自组织量子点在器件应用方面有很重要的意义。     

基于聚合物-量子点共混的量子点发光二极管

在ITO玻璃上制备了ITO/poly(3,4-ethylene dioxythiophene)∶poly(styrene sulphonate)(PEDOT∶PASS)/poly(N,N-bis(4-butylphenyl)-N,N-bis(phenyl)benzidine(poly-TPD)/QD/1,3,5-Tri(1-phenyl-1H-benzo[d]imidazol-2-yl)phenyl(TPBi)/Li F/Al结构的量子点发光二极管(QD-LED)。通过优化量子点的浓度,发现浓度为30 mg/m L时的器件性能最优,最大外量子效率(EQE)为0.83%,最大发光亮度为4 076 cd/m2。为了进一步提高QD-LED的发光效率,将QD掺入聚合物poly(N-vinylcarbazole)(PVK)和1,3-Bis(5-(4-(tert-butyl)phenyl)-1,3,4-oxadiazol-2-yl)benzene(OXD-7)中,以使得注入的电子和空穴更加平衡,同时还有助于能量传递,降低QD团聚及修饰QD薄膜表面,减少激子猝灭效应等。为此,通过旋涂和蒸镀两步法制备ITO/PEDOT∶PASS/poly-TPD/(PVK∶OXD-7)∶QD/TPBi/Li F/Al结构的器件,改变(PVK∶OXD-7)∶QD比例(1∶1,1∶3,1∶5,0∶1),发现(PVK∶OXD-7)∶QD为1∶3时的QD-LED具有最优性能,最大EQE为1.97%,相当于非掺杂器件的2.3倍,并且发光峰没有发生偏移。     

Mn掺杂ZnSe量子点变温发光性质研究

量子点(QD)照明器件中电流导致的焦耳热会使其工作温度高于室温,因此研究量子点的发光热稳定性十分重要。本文利用稳态光谱和时间分辨光谱研究了具有不同壳层厚度的Mn掺杂ZnSe(Mn: ZnSe)量子点的变温发光性质,温度范围是80～500 K。实验结果表明,厚壳层(6.5单层(MLs))Mn: ZnSe量子点的发光热稳定性要优于薄壳层(2.6 MLs)的量子点。从80 K升温到400 K的过程中,厚壳层Mn: ZnSe量子点的发光几乎没有发生热猝灭,发光量子效率在400 K高温下依然可以达到60%。通过对比Mn: ZnSe量子点的变温发光强度与荧光寿命,对Mn: ZnSe量子点发光热猝灭机制进行了讨论。最后,为了研究Mn: ZnSe量子点的发光热猝灭是否为本征猝灭,对具有不同壳层厚度的Mn: ZnSe量子点进行了加热-冷却循环(300-500-300 K)测试,发现厚壳层的Mn: ZnSe量子点的发光在循环中基本可逆。因此,Mn: ZnSe量子点可以适用于照明器件,即使器件中会出现不可避免的较强热效应。     

芴-咔唑新型共聚物/PVK掺杂体系的电致发光特性研究

研究了新型的芴-咔唑共聚物(PFC)与聚乙烯咔唑(PVK)掺杂体系的光致发光和电致发光特性.制备了结构分别为indium-tin-oxide(ITO)/PVK:PFC/bathocuproine(BCP)/tris-(8-hydroxylquinoline)-aluminum (Alq₃) /Mg:Ag，ITO/PFC/BCP/Alq₃/Mg∶Ag和ITO/PVK/BCP/Alq₃/Mg∶Ag的三种有机电致发光器件.对器件的光电特性进行了测试.结果表明，掺杂体系中的PVK有效地抑制了固态膜中PFC激基缔合物的形成.掺杂器件在不同的外加电场作用下发生发光层位置的移动，通过调节外加电场，可以获得从绿光到蓝光的可见光发射.当外加电压大于7V时，掺杂器件的蓝色发光亮度达到1650cd/m²，推测其中可能存在从PVK到PFC的能量传递过程.     

掺杂PVK薄膜的荧光谱及电荷转移

根据PVK掺杂后荧光谱的变化，说明掺杂PVK薄膜的电致发光存在着从基质分子向掺杂分子的能量传递，用一个由单链模型扩展到包括杂质的哈密顿量进行数值求解，结果表明：在PVK和杂质分子之间有效的能量传递是源于它僮之间的电荷转移，且随着杂质浓度的变化，其荧光谱峰位的移动与掺杂前后系统总能量的改变及荧光谱强度与掺杂后转移的电荷数之间分别存在对应关系。该模型较好地解释了有关的实验结果。     

基于PVK∶NPB掺杂体系的有机电致发光器件的性能

利用溶液旋涂的方法,通过改变复合功能层中poly(N-vinylcarbazole)(PVK)和N,N′-bis-(1-naph-thyl)-N,N′-diphenyl-(1,1′-biphenyl)-4,4′-diamine(NPB)的质量比,制备结构为indium-tin-oxide(ITO)/PVK:NPB/2,9-dimenthyl-4,7-diphenyl-1,10-phenanthroline(BCP)/Mg:Ag的有机电致发光器件,并对器件的电致发光特性进行了表征。研究结果表明,当复合功能层中PVK和NPB的质量比为1:1时器件性能最好,在该器件的电致光谱中,除了NPB的本征谱峰外,在长波方向还出现了一个位于640nm处的谱峰,这是PVK和NPB产生的电致激基复合物发光,并且随着驱动电压的增加,电致激基复合物的发光强度也相对增强。     

Hole mobility and trapping in PVK films doped with CdSe/CdS and CdSe quantum dots

Experimental study of the hole mobility in polyvinylcarbazole (PVK) films doped with two kinds of nanocrystals, on bare core CdSe and core-shell CdSe/CdS quantum dots, with concentrations ranging from 3 · 10¹⁰ to 3 · 10¹⁵ cm⁻³, is presented. The quantum dots investigated were made using colloidal chemistry. The hole mobility was measured using the time-of-flight technique as a function of the applied electrical field in the range 10⁵–10⁶ V/cm and for temperatures from 20°C to 50°C. The transient curves, being featureless on a linear plot, show on a double logarithmic scale a sharp inflection point indicating a dispersive carrier drift process. The recovered values of the mobility are in the range 3 · 10⁻⁸–10⁻⁶ cm²·V⁻¹·s⁻¹ and their field and temperature dependences can be analyzed formally within the framework of the Gaussian disorder model proposed by B?ssler. The energetic disorder is, within the experimental accuracy, independent of the concentration and type of quantum dots for the CdSe quantum dots at all concentrations and for the CdS/CdSe quantum dots up to 10¹⁴ cm⁻³. The spatial disorder factors are very large (from 5.3 to 8.7) and do not depend in a systematic way upon the type and concentration of quantum dots (QDs). The experiments show that the apparent mobility does not change considerably with concentration, but it was found that the samples with CdSe/CdS quantum dots at concentrations from 10¹⁵ to 3 · 10¹⁵ cm⁻³ show a decreased photocurrent response. The dependence of the time-integrated transients (corresponding to the full charge value) upon the quantum-dot concentration has been determined. Differences in total photogenerated charge for pure and doped polymer films imply that the quantum dots of that type are the hole traps with capture times much more smaller than the transit time and with emission times a few orders longer than the transit time. CdSe quantum dots without a shell do not seem to exhibit the same properties as core shells and do not produce considerable changes in the charge transfer, even at a density of 10¹⁵ cm⁻³.     

参杂GaAs量子点的电子结构

用有效质量近似和少体物理方法计算了在抛物势中,参杂（一个带正电荷）GaAs量子点中有7个极化电子时的本征能量和本征波函数,并从本征波函数中提取的一体、二体密度函数方法得到了电子结构的直观图像,用对称性对量子点中库仑相互作用能和电子结构进行了分析。     

基于量子点和MEH-PPV的白光发光二极管的研究

利用无机纳米材料与有机聚合物材料相结合的方法制备白光发光二极管器件, 研究了蓝光量子点QDs(B)掺杂聚[2-甲氧基-5-(2-乙基己氧基-1, 4-苯撑乙烯撑](MEH-PPV) 复合体系的发光特性及量子点QDs(B) 掺杂浓度(质量分数)不同对器件发光特性的影响. 制备了ITO/PEDOT:PSS/MEH-PPV:QDs(B)/LiF/Al 结构的电致发光器件, 测试了器件的电致发光光谱和电学、光学特性. 当QDs掺杂浓度为40%, 驱动电压为8 V时器件能得到较为理想的白光发射. 同时, 对比研究了非掺杂体系的发光特性, 制备了结构为ITO/PEDOT:PSS/MEH-PPV/QDs(B)/LiF/Al的器件, 掺杂体系相较于非掺杂体系, 器件的最大亮度增大, 启亮电压降低, 并分析了掺杂体系器件性能改善的原因.     

A quantum walk in phase space with resonator-assisted double quantum dots

We implement a quantum walk in phase space with a new mechanism based on the superconducting resonator-assisted double quantum dots.By analyzing the hybrid system,we obtain the necessary factors implementing a quantum walk in phase space:the walker,coin,coin flipping and conditional phase shift.The coin flipping is implemented by adding a driving field to the resonator.The interaction between the quantum dots and resonator is used to implement conditional phase shift.Furthermore,we show that with different driving fields the quantum walk in phase space exhibits a ballistic behavior over 25 steps and numerically analyze the factors influencing the spreading of the walker in phase space.     

LO-phonon overheating in quantum dots

Longitudinal optical phonons have been used to interpret the electronic energy relaxation in quantum dots and at the same time they served as a reservoir, with which the electronic subsystem is in contact. Such a phonon subsystem is expected to be passive, namely, in a long-time limit the whole system should be able to achieve such a stationary state, in which statistical distributions of both subsystems do not change in time. We pay attention to this property of the LO phonon bath. We show the passivity property of the so far used approximations to electronic transport in quantum dots. Also we show a way how to improve the passivity of LO phonon bath using canonical Lang-Firsov transformation. Presented at the X-th Symposium on Suface Physics, Prague, Czech Republic, July 11–15, 2005.     

Confined states in two-dimensional flat elliptic quantum dots and elliptic quantum wires

The energy spectrum and corresponding wave functions of a flat quantum dot with elliptic symmetry are obtained exactly. A detailed study is made of the effect of ellipticity on the energy levels and the corresponding wave functions. The analytical behavior of the energy levels in certain limiting cases is obtained.     

Nonlocal quantum cloning via quantum dots trapped in distant cavities

A scheme for implementing nonlocal quantum cloning via quantum dots trapped in cavities is proposed.By modulating the parameters of the system,the optimal 1 → 2 universal quantum cloning machine,1 → 2 phase-covariant cloning machine,and 1 → 3 economical phase-covariant cloning machine are constructed.The present scheme,which is attainable with current technology,saves two qubits compared with previous cloning machines.     

Electronic characteristics of InAs self-assembled quantum dots

Deep-level transient spectroscopy and photoluminescence studies have been carried out on structures containing self-assembled InAs quantum dots formed in GaAs matrices. The use of n- and p-type GaAs matrices allows us to study separately electron and hole levels in the quantum dots by the deep-level transient spectroscopy technique. From analysis of deep-level transient spectroscopy measurements it follows that the quantum dots have electron levels 130 meV below the bottom of the GaAs conduction band and heavy-hole levels at 90 meV above the top of the GaAs valence band. Combining with the photoluminescence results, the band structures of InAs and GaAs have been determined.