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dc.contributor.author吳俊吉en_US
dc.contributor.authorJiun-Ji Wuen_US
dc.contributor.author簡紋濱en_US
dc.contributor.authorWen-Bin Jianen_US
dc.date.accessioned2014-12-12T01:16:47Z-
dc.date.available2014-12-12T01:16:47Z-
dc.date.issued2007en_US
dc.identifier.urihttp://140.113.39.130/cdrfb3/record/nctu/#GT009521542en_US
dc.identifier.urihttp://hdl.handle.net/11536/38844-
dc.description.abstract硒化鉛為一具有窄能隙0.28 V的半導體,是個適合在長波長及紅外光波段之光電元件應用上的材料。近年來,除了單一量子點的研究外,更發現到硒化鉛所組成的量子點陣列有著場效電晶體跟記憶等特性,因此對於量子點陣列的研究成為近年來熱門的課題。 本實驗是利用低溫超高真空掃描穿隧電子顯微鏡去量測在金平面上,硒化鉛量子點陣列的集體電子傳輸行為。硒化鉛顆粒原本溶在甲苯溶液中,直徑約為15奈米,我們藉由控制溫度,將溶液滴在金平面上,可以成長出奈米顆粒陣列,並可控制陣列大小,並利用掃描穿隧顯微鏡,測量奈米顆粒陣列之電流-電壓曲線,結果可用雙穿隧接面模型與MW模型分析。如量子點陣列可視為一島嶼,並用雙穿隧接面模型擬合,我們取得陣列大小與兩穿隧接面之等效電阻與電容的關係,因此可推測量子點之間有強電性耦合效應。如回到量子點陣列模型,利用MW模型分析,我們可估計臨界電壓及電流通道數與陣列大小的關係,並觀察到電子在量子點陣列的集體傳輸行為。由MW模型分析結果,又可得知量子點間有強電容耦合效應,此結果與雙穿隧接面模型分析結果一致。zh_TW
dc.description.abstractThe PbSe semiconductor having a narrow band gap of 0.28 eV is suitable for applications in optoelectronic device, especially in long wave length and infrared waveband. Recently, PbSe quantum-dot arrays attract much attention due to a demonstration to build field-effect transistors and memory effect devices. In this study, we try to investigate electron transport in PbSe QD arrays by using a low-temperature scanning tunneling microscope in a ultra-high vacuum. The PbSe QDs dispersing in toluene were deposited on a gold surface. Two-dimensional islands of QD arrays with various sizes formed on the substrate via a self-assembly process. I-V curves on QD arrays were obtained through scanning tunneling spectroscopy measurements. We adopted double-tunneling-junction model and MW model to analyze our data. Taking the QD array as an isolated metal island, we can obtain resistances and capacitances according to the double-tunneling-junction model. The estimated resistances and capacitances show a dependence on the size of the QD array. On the other hand, the MW model was used to analyze I-V curves in voltage range above a threshold voltage. We obtained the size dependence of threshold voltage (Vth) and the dimensional parameter ζ. We believe that the result come from a strong capacitive coupling between QDs. We have explored collective electron transport in the PbSe QD arrays as a function of the array sizes.en_US
dc.language.isozh_TWen_US
dc.subject掃描穿隧顯微鏡zh_TW
dc.subject硒化鉛zh_TW
dc.subject量子點陣列zh_TW
dc.subject傳輸zh_TW
dc.subjectscanning tunneling microscopeen_US
dc.subjectPbSeen_US
dc.subjectquantum dots arrayen_US
dc.subjecttansporten_US
dc.title用掃描穿隧顯微鏡測量硒化鉛量子點陣列之電子傳輸行為zh_TW
dc.titleElectrical Transport in PbSe Quantum Dots Array by Using Scanning Tunneling Microscopeen_US
dc.typeThesisen_US
dc.contributor.department電子物理系所zh_TW
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