共查询到18条相似文献,搜索用时 62 毫秒
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用两种不同尺寸的CdTe纳米晶体与明胶溶液生长出均匀稳定的CdTe纳米晶体-明胶复合薄膜.研究了这种复合体系中两种尺寸的CdTe纳米晶体之间的共振能量迁移过程.荧光光谱显示:当复合薄膜中两种尺寸的纳米晶体之间的距离逐渐靠近时,较小尺寸的CdTe纳米晶体荧光峰强度逐步减弱,而较大尺寸的纳米晶体的荧光峰强度逐渐加强.荧光光谱的变化来源于大小尺寸纳米晶体之间的荧光共振能量迁移.小尺寸的纳米晶体作为施主,它的荧光光谱与大尺寸的纳米晶体(作为受主)的光吸收谱完全重叠,因而当施主和受主距离逐渐靠近时(明胶浓度逐渐降低时),施主将会把吸收光子得到的能量直接地共振传输给受主.从光谱分析可以得到荧光淬灭效率随颗粒间距的变化关系图,这种关系图可以被用来快速简捷地估计发光纳米晶体之间的距离,从而为它们在化学和生物领域的应用提供了广阔的前景. 相似文献
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用两种不同尺寸的CdTe纳米晶体与明胶溶液生长出均匀稳定的CdTe纳米晶体-明胶复合薄膜.研究了这种复合体系中两种尺寸的CdTe纳米晶体之间的共振能量迁移过程.荧光光谱显示:当复合薄膜中两种尺寸的纳米晶体之间的距离逐渐靠近时,较小尺寸的CdTe纳米晶体荧光峰强度逐步减弱,而较大尺寸的纳米晶体的荧光峰强度逐渐加强.荧光光谱的变化来源于大小尺寸纳米晶体之间的荧光共振能量迁移.小尺寸的纳米晶体作为施主,它的荧光光谱与大尺寸的纳米晶体(作为受主)的光吸收谱完全重叠,因而当施主和受主距离逐渐靠近时(明胶浓度逐渐降低时),施主将会把吸收光子得到的能量直接地共振传输给受主.从光谱分析可以得到荧光淬灭效率随颗粒间距的变化关系图,这种关系图可以被用来快速简捷地估计发光纳米晶体之间的距离,从而为它们在化学和生物领域的应用提供了广阔的前景. 相似文献
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本实验将自聚发光分子四苯基乙烯(TPE)和聚集淬灭分子阿霉素(DOX)连接为荧光分子复合物(TPEDOX conjugate,TD),并通过荧光光谱分析和扫描电镜观察结合的方法,对TD纳米聚集体中TPE和DOX的荧光淬灭机制进行了研究。实验发现,在TD分子内,TPE和DOX之间发生了"能量传递接力"的现象,即TPE通过荧光能量共振转移将能量传递给DOX,导致自身荧光发射淬灭;DOX由于TD纳米聚集体的形成,发生了聚集淬灭现象,致使TPE转移的能量和DOX自身的荧光发射均被淬灭,达到一个荧光双淬灭的效果。研究中采用荧光分析与电镜观察结合的方法,阐述了将两种具有相反发光性质的荧光分子在纳米尺度的荧光淬灭机理,为纳米尺度上的分子内荧光淬灭研究提供了理论依据。 相似文献
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1984年,德国科学家HGleiter等人采用情性气体原位加压成形法第一个制得块状纳米固体。从这以后,纳米材料的制备方法得到长足的发展。到目前为止,制各纳米材料的方法主要有以下几种:惰性气体凝聚法,溅射法,激光制备法等。激光制备法又分三种,即激光气相合成、激光波相沉淀和激光消融。激光消融是用激光直接照射材料表面,通过对材料的消融而得到纳米颗粒。当激光照射在不透明的物质上时,会产生多种效应,其中包括加热、熔融、气化、电离以及热应力、应力被、烧蚀部击波等力学效应,这些效应使材料消融共产生金相组织变化,形成缺陷… 相似文献
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采用近距离升华法(Close-Spaced-Sublimation,CSS)引入Bi催化剂成功制备出了具有纳米线、近阵列排布的纳米棒等形貌的纳米晶CdTe薄膜.并利用X射线衍射(XRD)、扫描电子显微镜(SEM)、紫外可见分光光度计等研究了薄膜的结构、表面形貌和光学性能.讨论了CdTe纳米结构可能的生长机制.Abstract: Bi-catalyzed nanocrystalline CdTe films were prepared by close spaced sublimation (CSS) technique successfully.These nanocrystalline CdTe films had surface appearance of nanowires or a similar array arrangement nanorod.The structure,the surface topograph and the optical properties of these films were studied using X-ray diffraction(XRD),scanning electron microscopy(SEM) and ultroviolet-visible (UV-VIS) spectrophotometer.And the possible growth mechanisms of these nanostructures were discussed. 相似文献
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Hilmi Volkan Demir 《Advanced functional materials》2016,26(45):8158-8177
Effective utilization of excitation energy in nanoemitters requires control of exciton flow at the nanoscale. This can be readily achieved by exploiting near‐field nonradiative energy transfer mechanisms such as dipole‐dipole coupling (i.e., Förster resonance energy transfer) and simultaneous two‐way electron transfer via exchange interaction (i.e., Dexter energy transfer). In this feature article, we review nonradiative energy transfer processes between emerging nanoemitters and exciton scavengers. To this end, we highlight the potential of colloidal semiconductor nanocrystals, organic semiconductors, and two‐dimensional materials as efficient exciton scavengers for light harvesting and generation in optoelectronic applications. We present and discuss unprecedented exciton transfer in nanoemitter–nanostructured semiconductor composites enabled by strong light–matter interactions. We elucidate remarkably strong nonradiative energy transfer in self‐assembling atomically flat colloidal nanoplatelets. In addition, we underscore the promise of organic semiconductor–nanocrystal hybrids for spin‐triplet exciton harvesting via Dexter energy transfer. These efficient exciton transferring hybrids will empower desired optoelectronic properties such as long‐range exciton diffusion, ultrafast multiexciton harvesting, and efficient photon upconversion, leading to the development of excitonic optoelectronic devices such as exciton‐driven light‐emitting diodes, lasers, and photodetectors. 相似文献
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氩氧气氛下沉积的CdTe薄膜及太阳电池的性质 总被引:7,自引:2,他引:7
研究了在氩氧气氛下近空间升华沉积CdTe的技术.发展了在表面十分平整的玻璃衬底上沉积优质CdTe薄膜的方法,对比了在玻璃衬底和CdS薄膜上CdTe薄膜的结构特征.通过研究氧分压对CdTe薄膜择优取向的影响,证实了在恰当的近空间升华沉积过程中,两种衬底上的CdTe薄膜具有相同的结构.研究了玻璃衬底上CdTe薄膜的电学与光学性质,观察了后处理对上述薄膜性质的影响,并研制出了效率达1338%的小面积CdTe 薄膜太阳电池. 相似文献
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Networks of fluorophores arranged at the nanoscale can perform basic computation using resonance energy transfer (RET) to transport and manipulate information in the form of excitons. As excitons travel through RET circuits, they are red‐shifted due to vibrational energy loss at each transfer event. This loss prohibits RET circuits from being cascaded to form larger, more computationally complex systems. To address this issue, a nanoassembly capable of converting three or more low energy excitons into a single high energy exciton is designed and fabricated. Deemed the RET relay, this device uses upconverting nanoparticles to achieve anti‐Stokes energy transfer from near‐infrared excited fluorophores to visibly excited fluorophores. In this work, the relay is explored by first breaking it into its halves. Each fluorophore's ability to donate energy to or from the nanoparticle is characterized by a series of photoluminescence experiments. The adsorption of these fluorophores to the particle is modeled as a Langmuir process, revealing the fractional occupancy of each dye that optimizes energy transfer. A fully functional relay is then demonstrated by exciting the near‐infrared dye and extracting the visible dye's fluorescence. Lastly, the performance of the entire construct is optimized over a small sampling of assembly reaction coordinates. 相似文献