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Si-RF Technology

為了解決On Design PTT的問題，作者Karmakar, Ayan,Singh, Kamaljeet 這樣論述：

Ayan Karmakar received the B.Tech degree (Electronics and Communication) from Maulana Abul Kalam Azad University of Technology, West Bengal (formerly known as WBUT) in 2005. Later he did his masters from NIT, Durgapur. He joined ISRO as a ’Scientist’ and subsequently posted to Semi-Conductor Laborat

ory (SCL), Chandigarh. His research interests include design and development of various passive microwave integrated circuits and antennas using silicon based MIC and RF-MEMS technology. His field of expertise are expanded in fabrication technology of various MEMS based sensors and evolving the test

strategies for the same. He has numerous publications in reputed journals and conferences at various national and international levels. He received multiples prizes/awards from Department of Space for his active involvement and technical contributions in Rajbhasha (Hindi). He has shown keen interes

t to build a strong communication link between academics and industry. In this context, he has delivered numerous lectures in the invited talk series of various institutes of national importance. He serves as a reviewer in reputed referred journals. He is a Fellow of IETE and Life member of ISSE and

Bangiya Bigyan Parishad, India. Dr. Kamaljeet Singh has obtained M. Tech (Microwaves) from Delhi University in 1999 and awarded PhD in 2010.He joined ISAC in 1999 and worked in the area of Geo- receiver at C-band. He was posted to Semi-conductor Laboratory, Near Chandigarh in 2006 where he was trai

ned in thin film and worked in the area of RF-MEMS. He initiated development of various sensors along with re-establishment of 6＂-MEMS Fabline at SCL and was principle investigator for NPMASS project. He is presently working in SEG group at URSC since 2016 and involved in development of C, S-band TT

&C transponders along with X-band data transmitters for various missions. He is a fellow of IETE, Life member of ASI & Punjab Academy of Sciences and member of IEEE. He has published more than 100 articles in various journals/conferences and is on the review board of many journals. He is the recipie

nt of young scientist awards from INAE, IETE & ISRO. He published the book titled ’RF principle and its application in RF-MEMS switch’. A patent titled liquid level sensor using MEMS technology is also filed.

On Design PTT進入發燒排行的影片

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On Design 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

Proceedings of the 28th Conference of Spacecraft Tt&c Technology in China: Openness, Integration and Intelligent Interconnection

為了解決On Design PTT的問題，作者 這樣論述：

Mr. Rongjun Shen is Academician of the Chinese Academy of Engineering and an authoritative expert in space engineering management and spacecraft TT&C technology. Mr. Shen served as the Deputy Director General (Vice Minister) of the Committee of Science Technology and Industry for National Defence (C

OSTIND) from 1985 to 1998, Vice Commander-in-Chief of China’s manned space program from 1992 to 2000, and he is currently an advisor to China’s manned space program and lunar exploration program, dean of the School of Aeronautics and Astronautics of Zhejiang University, and an honorary professor of

the National University of Defence Technology and the Academy of Equipment. Mr. Shen has been a director of the Chinese Society of Astronautics and the Director General of the Spacecraft TT&C Committee of the Chinese Society of Astronautics for many years. Mr. Shen has been mainly working in fields

of planning and design of space TT&C systems, research and experiments in defence technology and engineering management. He is one of the founders of China’s space TT&C network and electronic equipment test range. A pioneer in China’s manned space endeavour, he led and organized feasibility study, d

esign, development and the maiden flight experiment of China’s manned space program. Working in the field for many years both as a leader and as a specialist, Mr. Shen has left influence on all major space programs and defence technology experiments of China.Mr. Guangliang Dong is currently Director

General of Beijing Institute of Tracking and Telecommunications Technology, Deputy Chief Designer of China’s First Mars Exploration Mission Program, Chief Designer of the TT&C system of China’s Lunar Exploration Program, director of the Chinese Society of Astronautics and Director General of the Sp

acecraft TT&C Committee of the Chinese Society of Astronautics. Mr. Dong is highly specialized in aerospace TT&C and communication technology and he is mainly working in the field of planning and design of aerospace TT&C systems and engineering management. He led and organized analysis, design and d

evelopment of the TT&C and communication system for China’s Lunar Exploration Program. He is the main designer of China Deep Space TT&C Network.

社群平台間的游動：從符擔性角度看記者分化使用之戰術

為了解決On Design PTT的問題，作者李岱瑾 這樣論述：

社群平台走向多元化，記者受個人不同因素影響，發展出相異的分化使用平台策略。本研究為瞭解記者在社群平台間的行動脈絡，從中發掘如何在平台戰略體制下執行戰術，創造反體制的生存空間，對其人際關係的影響。因此，以符擔性理論（Affordance Theory）為基礎，透過深度訪談十二名不同世代的記者，探究記者如何感知社群平台符擔性以操作戰術，在互動中又創造哪些平台新意義。研究發現，記者操作戰術時有一個既定的邏輯，以臉書作為使用社群平台之開端，當記者感知臉書內涵的轉變後，試著先調整自身行為的合適性，改變發文內容、降低貼文頻率、增設隱私設定，直到無法滿足個人使用慾望，以跨平台至Instagram和創建臉書

新帳號為最多記者採用的戰術。記者在多重情境之下，並不會完全消失在臉書中，而是以臉書為本，其他社群平台為輔。這顯示，記者不願破壞臉書經營已久的人際關係，運用臉書原始科技的設計翻轉為有用資源，知覺臉書龐大的使用者和資訊量之優勢，從單純交友軸線轉變成輔助新聞工作的工具，以經營弱關係和獲取資訊管道為主，Instagram則成為私人的生活實記；記者游移在社群平台之間的差異行為，彰顯出記者的戰術因應科技變遷不斷地適應，也深受日常生活和工作經驗影響。