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Gel quantum 90 ptt的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列包括賽程、直播線上看和比分戰績懶人包
國立臺灣科技大學 化學工程系 張家耀所指導 諾菲的 多功能環保量子點作為靶向雙成像和光動力癌症治療平台 (2021),提出Gel quantum 90 ptt關鍵因素是什麼,來自於carbon quantum dots、Mn dopant、MRI、photodynamic therapy、photoluminescence。
而第二篇論文國立虎尾科技大學 生物科技系碩士班 林家驊所指導 許瑜芳的 PDA@VER/ZIF-8奈米粒子於乳癌細胞近紅外光光熱療/光動療之效應評估 (2021),提出因為有 ZIF-8、VER-155008、聚多巴胺、近紅外光、乳癌、光熱治療、光動治療的重點而找出了 Gel quantum 90 ptt的解答。
多功能環保量子點作為靶向雙成像和光動力癌症治療平台
為了解決Gel quantum 90 ptt 的問題,作者諾菲 這樣論述:
Recommendation letter iiAbstract in chinese iiiAbstract in english vAcknowledgments viiContents viiiList of figures xiiList of tables xviiList of abbreviation ixChapter 1. Introduction 11.1 General introduction 21.2 Objective of study 61.3 Structure of the dissert
ation 6Chapter 2. Literature review 82.1 Nanoparticles 92.2 Semiconductor quantum dots 102.3 The quantum confinement, optical properties, and core/shell structure of QDs 122.4 Synthesis of QDs 192.4.1 Nucleation and growth 212.4.2 Hot injection method 252.4.3 Heat-up method
282.4.4 Solvothermal approach 312.4.5 Hydrothermal approach 332.4.6 Microwave irradiation approach 352.5. Folate receptor targeting agents 382.6 QDs biomedical applications 422.6.1 Optical imaging 422.6.2 Magnetic resonance imaging (MRI) 442.6.3 Drug delivery 462.6.4 Photo
‑dynamic therapy (PDT) and Photo‑thermal (PTT) therapy 59Chapter 3. Manganese-doped green tea-derived carbon quantum dots as a targeted dual imaging and photodynamic therapy platform 483.1 Introduction 523.2 Experimental methods 533.2.1 Materials 553.2.2 Synthesis of Mn-CQD 563.2.
3 Preparation of Mn-CQDs@FA/Ce6 563.2.4 Characterization 573.2.5 Cell structure and viability evaluation 583.2.6 In vitro photodynamic cancer cells’ ablation 593.2.7 Cell imaging 603.3 Results 603.3.1 Synthesis of Mn-CQDs 603.3.2 Preparation of Mn-CQDs@FA/Ce6 643.3.3 Photolu
minescence characteristics and ROS generation of Mn-CQDs@FA/Ce6 conjugates 663.3.4 Mn-CQDs as MRI contrast agents 693.3.5 In vitro cellular uptake and therapeutic effect 723.4 Discussion 753.5 Summary 77Chapter 4. Multifunctional MnCuInSe/ZnS quantum dots for bioimaging and photodyna
mic therapy 794.1 Introduction 804.2 Experimental methods 834.2.1 Materials 834.2.2 Synthesis of the CuInS, CuInSe, MnCuInSe core and CuInS/ZnS, CuInSe/ZnS and MnCuInSe/ZnS core/shell carbon quantum dots 844.2.3 Characterization 854.2.4 Optical and photoluminescence properties of
MnCuInSe/ZnS assay 854.2.5 Photoactivity assessment of MnCuInSe/ZnS 864.2.6 In Vitro MR 864.2.7 Cell culture and in vitro cytotoxicity evaluation 874.2.8 Cell imaging 884.3. Results and discussion 884.3.1. Synthesis and characterization of MnCuInSe/ZnS 884.3.2 Optical and photol
uminescence properties of MnCuInSe/ZnS 904.3.3 Stability of MnCuInSe/ZnS QDs colloidal solution 944.3.4 ROS generation of MnCuInSe/ZnS 974.3.5 Magnetic resonance imaging 984.3.6 In vitro cellular uptake and therapeutic effect 1014.3.7 Confocal imaging 1024.4. Summary 105Chapte
r 5. Conclusions 1065.1 Conclusions 1075.2 Future outlooks 109References 110Appendix 134
PDA@VER/ZIF-8奈米粒子於乳癌細胞近紅外光光熱療/光動療之效應評估
為了解決Gel quantum 90 ptt 的問題,作者許瑜芳 這樣論述:
光療具有創傷小、副作用少、提高癌症治療準確性等優點。為此,我們合成一種由聚多巴胺(PDA)、Zeolitic Imidazole Framework-8(ZIF-8)和包裹熱休克蛋白抑製劑VER-155008組成的多功能奈米顆粒。ZIF-8是一個有應用於生物醫學潛力之新型有機金屬框架(Metal Organic Frameworks, MOFs)。本研究討論了將聚多巴胺修飾的 ZIF-8 和 VER-155008 作為新的協同劑與光熱療法(photothermal therapy, PTT)和光動力療法(photodynamic therapy, PDT)聯合用於殺死癌細胞的應用。PDA
@VER/ZIF-8在近紅外(near-infrared, NIR)照射(808 nm)下提供高光熱轉換和活性氧物質(oxygen species, ROS)生成效率,從而導致PDA@VER/ZIF-8在低濃度使MCF-7細胞產生不可逆損傷。使用NIR激光照射PDA@VER/ZIF-8將光子的能量轉化為熱量和ROS。我們的研究結果表明,在VER@ZIF-8表面修飾PDA可以提高PDA@VER/ZIF-8的生物相容性。這項工作將 PTT 和 PDT 效應集成到單個奈米複合材料中,以提供高效的癌症治療。同時,PDA@VER/ZIF-8結合了PDA、VER和ZIF-8的優點,表現出優異的生物相容性、
靶向性和抗腫瘤能力,在未來的癌症治療臨床研究中具有巨大的潛力。