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List of detroit lion的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列線上看、影評和彩蛋懶人包
國立臺北科技大學 能源與光電材料外國學生專班(EOMP) 陳生明所指導 Balaji Ramachandran的 開發一種以鹵氧化鉍為基底的高效能奈米催化表面結構並應用於表面增強拉曼光譜(SERS)和電化學之研究 (2021),提出List of detroit lion關鍵因素是什麼,來自於鹵氧化鉍、奈米複合材料、表面催化、SERS(表面增強拉曼光譜)、電化學感測器、環境汙染物。
而第二篇論文國立高雄科技大學 工學院工程科技博士班 陳錫添所指導 杜偉寧的 EDTA-Fe及雙氧水新型催化氧化技術應用 (2018),提出因為有 染整廢水、光催化、化學氧化、活性碳吸附、殺菌作用、化學需氧量降解的重點而找出了 List of detroit lion的解答。
開發一種以鹵氧化鉍為基底的高效能奈米催化表面結構並應用於表面增強拉曼光譜(SERS)和電化學之研究
為了解決List of detroit lion 的問題,作者Balaji Ramachandran 這樣論述:
摘要 iAbstract iiiAcknowledgement viiiTable of contents xList of figures xixList of schemes xxviiList of tables xxixCHAPTER 11 Introduction 11.1 Briefing of nanomaterials 21.2 Properties of nanomaterials 31.3 Nanomaterials around us 51.4 Two-dimensional (2D) nanomaterial for catalysis
61.5 Bismuth oxy halide nanomaterials 71.6 Understanding surface enhanced Raman scattering (SERS) 71.7 Significance of noble metal nanoparticles in SERS 81.8 Electrochemical system and studies 91.9 Heterogeneous catalysis 111.10 Harmful environmental pollutants – Pesticides 121.11 Tox
ic pharmaceutical drugs 121.12 Background and inspiration 121.13 Research objectives 141.14 References 14CHAPTER 22 Material synthesis and characterization techniques 182.1 Synthesis of nanomaterials 192.2 Hydrothermal synthesis process 202.3 Merits and demerits of hydrothermal techniq
ue 212.4 Sputter deposition of materials 222.5 X-Ray diffraction technique 232.6 UV-Visible spectroscopy 242.7 Scanning electron microscopy 252.8 Transmission electron microscopy 272.9 Brunauer-Emmett-Teller (BET) analysis 282.10 X-Ray photoelectron spectroscopy 282.11 Raman spectros
copy 302.12 References 31CHAPTER 33 Ingenious Design and Development of recyclable 2D BiOCl Nanotiles Attached Tri-functional Robust Strips for High Performance Selective Electrochemical Sensing, SERS and Heterogenous Dip Catalysis 333.1 Introduction 353.2 Experimental, materials and methods
41 - Materials 41 - Synthesis of 2D BiOCl nanotiles (BOC-NT) 42 - Fabrication of BOC-NT reinforced electrodes for the electrochemical investigation 42 - Fabrication of the SERS active strips and investigation 42 - Fabrication of the dip catalyst 43 - Gravity offered drying proce
ss (GOD) 433.3 Results and discussion 44 - Physical characterizations of 2D BOC-NT 44 - Electrochemical investigations 50 - SERS investigation 54 - Dip catalysis studies 613.4 Conclusion 653.5 References 66CHAPTER 44 High-performance Catalytic Strips Assembled with BiOBr Nano-ros
e Architectures for Electrochemical and SERS Detection of Theophylline 734.1 Introduction 754.2 Experimental, materials and methods 78 - Materials 78 - Hydrothermal preparation of BiOBr Nano-rose architectures (BOB-NR) 79 - Fabrication of BOB-NR modified electrode for the electrochemica
l investigations 79 - Fabrication of BiOBr/Au@SPCE catalytic strips for SERS investigations 80 - Gravity offered drying procedure for BiOBr nano-roses onto the SPCE strips 80 - Material Characterization 814.3 Results and discussions 82 - Crystal structure, morphology and compositional
investigation of BiOBr nano-roses (BOB-NR) 82 - Electrochemical analysis 88 - Surface Enhanced Raman Scattering (SERS) investigations 1024.4 Conclusion 1164.5 References 117CHAPTER 55 Coherent Design and Construction of Bimodal Catalytic Strips Armed with 2D BiOI Nanostructures for Hig
h-Performance Electrochemical and SERS Detection of Lethal Pesticide 1245.1 Introduction 1265.2 Experimental, materials and methods 129 - Materials used 129 - Synthesis of 2D BiOI nanostructures 130 - Fabrication of 2D BiOI nanostructures reinforced electrodes for electrochemical inves
tigations 131 - Preparation of SERS active substrate strips based on 2D BiOI nanostructures 132 - Gravity offered drying of BiOI nanostructures onto strip substrates 132 - Material characterization 1335.3 Results and discussions 134 - Physical characterizations of 2D BiOI nanostructure
s 134 - Investigation of electrochemical properties 139 - Investigation of surface enhanced Raman scattering (SERS) properties of BiOI based substrates 1525.4 Conclusion 1645.5 References 164CHAPTER 66 High-Performance SERS Detection of Pesticides Using BiOCl-BiOBr@Pt/Au Hybrid Nanostruc
tures on Styrofoams as 3D Functional Substrate 1726.1 Introduction 1746.2 Materials and experimental 176 - Material and preparation of BiOCl-BiOBr composite material 176 - Preparation of 3D Styrofoam based SERS substrates 176 - Material Characterization 178 - Choice of materials 178
6.3 Results and discussions 179 - Physical characterization of BiOCl-BiOBr nanocomposites 179 - SERS Enhancement Factor (EF) investigation of the 3D Styrofoam substrates 184 - Limit of Detection (LOD) investigation of the SERS Styrofoam substrate 188 - Reproducibility, selectivity and s
tability investigation of the SERS Styrofoam substrate 191 - SERS enhancement mechanism on the Styrofoam substrates 195 - Application to the analysis of real samples using SERS Styrofoam substrate 1966.4 Conclusion 1986.5 References 198CHAPTER 77 Summary and future scope of the dissertat
ion 2037.1 Summary of dissertation 2047.2 Future scope of the dissertation 2057.3 References 2067.4 List of Publications 208
EDTA-Fe及雙氧水新型催化氧化技術應用
為了解決List of detroit lion 的問題,作者杜偉寧 這樣論述:
EDTA-Fe及雙氧水,在中性pH下,可產生強效催化氧化反應,且在相同劑量與條件下,氧化效果優於傳統芬頓法,也已有相關專利發表。綜此,本研究希望能從實用角度,進一步深化此技術,並將研究成果,以論文方式呈現。本研究利用EDTA-Fe及雙氧水氧化效力,試圖解決二項實際問題:其一是染整廢水COD處理問題; 其二是抑菌性問題。在染整廢水處理問題上,由於目前染整客戶需求多樣,加上染色技術進步,染整產業發展比以往都要快速。而台灣原始設備製造(OEM)和原始設計製造(ODM)在關鍵染色能力、在跨國紡織企業等,都有著至關重要的角色。惟客製染色需求與環保節水思維,使得染整廢水處理困難度增加,新技術的導入
有其需要性。在抑菌應用上,雙氧水一直是殺菌常用化學品,在催化劑使用下,是否能有效降低雙氧水劑量,而能達到同樣抑菌目標,亦是需要更多的測試與評估。 針對染整廢水處理,本研究將EDTA-Fe與雙氧水和二氧化鈦分別用於常用各式染劑氧化降解上,並在瞭解其高降解效力後,將此一氧化效力,用在高濃度染整廢水處理上。另,在抑菌研究上,不同EDTA-Fe與雙氧水劑量所產生的抑菌效力及其抑菌反應機制等,皆有所探討。這些研究成果總結於三篇研究論文中:“水中染料的光催化和化學催化氧化反應”、“以活性碳吸附直接從染料廢水中去除化學需氧量“,及“螯合鐵(EDTA-Fe)和過氧化氫(H2O2)藉由產生氧化壓力而成的殺菌效
能”等。這些文章的主要結論如下:(1)過氧化氫和EDTA-Fe螯合鐵可降解超過8成酸性及反應性染劑,且如加入二氧化鈦(TiO2),降解可再增加,具加成性的效果。(2)過氧化氫和EDTA-Fe螯合鐵可再活化吸附高濃度染整廢水COD的活性碳,從源頭降解染整廢水COD。(3)螯合鐵可在中性pH下,用於增加氧化效力和殺菌效果。更詳細的結論,如劑量、操作條件等,亦可一併參考內文中上述三篇已發表文章。