Ram USA的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列免費下載的地點或者是各式教學

Smart 3D Nanoprinting: Fundamentals, Materials, and Applications

為了解決Ram USA的問題，作者 這樣論述：

Dr. Ajit Behera is Assistant Professor, Metallurgical & Materials Department at National Institute of Technology, Rourkela. He completed his Ph.D. from IIT Kharagpur in 2016. He got the National Yuva Rattan Award in 2020 for his contribution to society and academic career, as well as the Young Facul

ty Award in 2017 and the C.V. Raman Award in 2019. He has published more than 80 publications including books, book chapters, and journal articles. His research interest is smart materials, additive manufacturing, 3D & 4D printing, NiTi-alloys, plasma surface engineering, nanotechnology, magnetron s

puttered thin film, cryo-treatment, and utilization of industrial waste. He has published two patents related to smart materials and has completed four sponsored research projects along with many consultancy projects. He is a regular speaker and external examiner on topics related to materials scien

ce and advanced materials. Dr. Behara is associated with many reputed scientific international organizations as a committee member or advisory committee member. More than 10 Ph.D. students from his institute/outside the institute and 4 foreign exchange students are working on projects with him.Tuan

Anh Nguyen has completed his BSc in Physics from Hanoi University in 1992, and his Ph.D. in Chemistry from Paris Diderot University (France) in 2003. He was a Visiting Scientist at Seoul National University (South Korea, 2004) and the University of Wollongong (Australia, 2005). He then worked as a P

ostdoctoral Research Associate & Research Scientist at Montana State University (USA), 2006-2009. In 2012, he was appointed as Head of Microanalysis Department at the Institute for Tropical Technology (Vietnam Academy of Science and Technology). He has managed 4 Ph.D. theses as thesis director and 3

are in progress; He is Editor-In-Chief of Kenkyu Journal of Nanotechnology & Nanoscience and Founding Co-Editor-In-Chief of Current Nanotoxicity & Prevention.Dr. Ram Gupta is Associate Professor at Pittsburg State University. Dr. Gupta’s research focuses on green energy production and storage using

conducting polymers and composites, electrocatalysts for fuel cells, nanomaterials, optoelectronic and photovoltaic devices, organic-inorganic hetero-junctions for sensors, nanomagnetism, bio-based polymers, bio-compatible nanofibers for tissue regeneration, scaffold and antibacterial applications,

and bio-degradable metallic implants. Dr. Gupta has published over 210 peer-reviewed articles, made over 275 national/international/ regional presentations, chaired many sessions at national/international meetings, edited/written several books/chapters for American Chemical Society, Royal Society o

f Chemistry, CRC, Elsevier, Springer, and Wiley. He has received over two million dollars for research and educational activities from external agencies. He serves as Associate Editor, Guest Editor, and editorial board member for various journals.

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應用自開發之程序控制系統於電漿電解氧化製程以探討氧化膜性能提升機制之研究

為了解決Ram USA的問題，作者黃冠諭 這樣論述：

誌謝 I中文摘要 II英文摘要 IV目次 VI圖目次 X表目次 XVIIIChapter.1 前言 11.1 電漿電解氧化技術的發展背景 11.2 研究動機 4Chapter.2 電漿電解氧化處理 52.1 電漿電解氧化(PEO) 52.1.1 電漿電解氧化機制原理 62.1.2 膜層電擊穿機制 112.1.3 電漿電解氧化之電源參數影響 152.1.4 PEO製程的物理/化學反應機制 182.2 PEO氧化膜層特性 252.2.1 膜層的反應與形成機制 252.2.2 PEO處理中常見的基材金屬 292.3 PEO製程常見的電解

質成分 342.4 程序控制法 382.5 應用於Mn摻雜TiO2光催化劑薄膜 402.5.1 揮發性有機汙染物 402.5.2 光催化反應機制 412.5.3 Mott-Schottky方程 442.5.4 二氧化鈦光觸媒 462.5.5 二氧化鈦光觸媒的製備方法 512.5.6 提升二氧化鈦光觸媒光吸收效能之技術 542.6 應用於HA與L乳酸鈣於生醫改質氧化膜層 572.6.1 PEO於生醫改質之發展與應用 572.6.2 PEO生醫改質中常見的金屬植體 582.6.3 氫氧基磷灰石與L-乳酸鈣於生醫改質之用途 592.7 研究目的與實

驗規劃 61Chapter.3 程序控制法於PEO製程之應用 633.1 實驗方法 633.1.1 程序控制系統與設備 633.1.2 實驗設計 643.1.3 Mn: TiO2光催化劑實驗流程設計 683.1.4 以懸浮液搭配程序控制PEO製備TiO2膜層之流程設計 713.1.5 以離子溶液液搭配程序控制PEO製備TiO2膜層之流程設計 743.2 實驗基材選用與藥品準備 773.3 程序控制法於PEO製程基本分析 793.3.1 電源系統監控分析 793.3.2 膜層表面形貌與成分分析 793.3.3 孔徑與孔隙率分析 793.3.4

晶體結構相組成分析 803.3.5 紫外光－可見光吸收光譜分析 813.3.6 載子濃度分析 813.3.7 X射線光電子能譜分析 823.3.8 懸浮微粒之粒徑大小分析 83Chapter.4 多階段程序控制於PEO處理製備摻雜Mn: TiO2光催化劑 844.1 Mn: TiO2光催化劑特性探討 844.1.1 第一步驟製程設計對二氧化鈦膜層影響 844.1.2 不同含浸濃度錳離子對於二氧化鈦特性比較 904.1.3 不同電源模式含錳離子之二氧化鈦特性差異 1034.1.4 含浸法對錳離子含量之影響與離子機制之探討 1144.2 光觸媒催化效能測

試 119Chapter.5 以懸浮液搭配多階段程序控制PEO進行TiO2膜層製備 1215.1 HA於多階段程序控制PEO之影響 1215.1.1 單階段程序控制於PEO膜層特性之探討 1215.1.2 雙階段程序控制於PEO膜層特性之探討 1225.1.3 多階段程序控制於PEO膜層特性之探討 1295.2 HA於增加陽極氧化前處理之影響 1415.2.1 陽極處理膜層之特性探討 1415.2.2 陽極處理－多階段程序控制PEO膜層特性探討 142Chapter.6 以離子溶液搭配多階段程序控制PEO進行TiO2膜層製備 1626.1 電解液A於PE

O不同階段製程之膜層特性探討 1626.1.1 電解液A之乳酸鈣於雙階段PEO製程影響 1626.1.2 電解液A之乳酸鈣於三階段PEO製程影響 1706.2 電解液B於PEO不同階段製程之膜層特性探討 1736.2.1 電解液B之乳酸鈣於雙階段PEO製程影響 1736.2.2 電解液B之乳酸鈣於三階段PEO製程影響 182Chapter.7 結論與未來展望 1917.1 結論 1917.2 未來展望 192參考文獻 193

Synergistic Design of Sustainable Built Environments

為了解決Ram USA的問題，作者Kabre, Chitrarekha 這樣論述：

Prof. Dr. Chitrarekha Kabre earned her Doctorate in Architecture from the University of Queensland, Australia in 2008 (recipient of the Australian Development Cooperation Scholarship). In 1989 she received her degree of Master of Building Engineering & Management (recipient of gold medal) from the S

chool of Planning and Architecture, New Delhi (an institute of National Importance). In 1985 she received her degree of Bachelor of Architecture from the Maulana Azad National Institute of Technology, Bhopal. She has 30 years of academic and professional experience in the field of computer aided arc

hitectural design, project management and sustainable architecture. She has developed courses on sustainable architecture at undergraduate, postgraduate, and doctoral levels. She introduced M. Tech. (construction & real estate management) an innovative program awarded by the University Grants Commis

sion, Government of India. She has been the pioneer of sustainable architecture education and research at the eminent institutions like the Indian Institute of Technology, Kharagpur, Manipal University and presently Deenbandhu Chhotu Ram University of Science and Technology, Murthal (Sonepat). As Fu

lbright Visiting Professor, North Dakota State University, Fargo, USA (2012) she contributed in pedagogy of sustainable architecture. She is an active member of the Society of Building Science Educators (SBSE) and recipient of Jeffrey Cook Memorial Scholarship in 2019. She has authored more than 36

research papers in international conferences and journals (Building & Environment and Architectural Science Review) and has served as a reviewer for the journals Building & Environment (Elsevier Science) and Indoor & Built Environment (Sage Publications). She is the author of the book ’Sustainable B

uilding Design: Application using Climatic Data in India’ published by Springer, Germany and the chief editor of the book ’Energy Efficient Design of Buildings and Cities’ published by DCR University of Science & Technology, Murthal and Hochschule Ostwestfalen-Lippe (HSOWL), Detmold, Germany. She ha

s an extensive citation index in Google Scholar. She is a life member of the International Association of Passive and Low Energy Architecture (PLEA) and an International Associate of American Institute of Architects. She is also LEED(R) Green Associate of US GBC. She is a certified professional as w

ell as an evaluator (architect & construction management) of Green Rating for Integrated Habitat Assessment (GRIHA), a national green rating of India. She is the master trainer for the Energy Conservation Building Code administered by the Bureau of Energy Efficiency, Ministry of Power, Government of

India. Her biography is published in Marquis Who’s Who in the World, the United States, as one of the leading achievers.

COVID-19疫情期間部署於行動裝置的生態瞬時評估法： 系統性文獻回顧與設計意涵

為了解決Ram USA的問題，作者許家銘 這樣論述：

生態瞬時評估法（Ecological Momentary Assessment，簡稱EMA）是一種透過不斷重複、即時取樣使用者特定情境當下的體驗，藉此了解使用者想法、行為及其動態變化的研究方法，此方法可被應用在行動健康照護、人機互動以及心理學等領域。EMA發展行之有年，許多回顧文獻已探討其方法、技術可行性以及各領域的應用現況。然而有研究指出對於EMA之期許與系統實質成效之間仍有落差，只有少部分回顧文獻針對其提出明確的設計準則或策略可供遵循；此外，現今將EMA部署於行動裝置上雖帶來新的研究契機，同時也衍生許多新的挑戰與議題，同時COVID-19疫情在2021年持續對全球造成衝擊，對人們造成的生

、心理及行為影響仍有待深入且充分的探究。因此本研究遵循PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) 報告準則，採用系統性文獻回顧方法，以特定關鍵字組合在PubMed、ACM Digital Library以及Web of Science-Core Selection三個電子資料庫進行檢索，歸納搜尋篩選結果的25篇論文中，人們在疫情期間受影響的行為及身心變化，並聚焦在這些行動裝置上EMA的協議、研究目的、設計特徵、與使用者的互動機制、介入策略以及研究成效，整理分類及比較後匯總成部署在行動裝置

上的EMA設計策略以及疫情期間人們所受的影響。本研究除了綜述人們在疫情期間受到的身心及行為影響，整理出的設計策略將可作為往後研究者在欲採用行動裝置搭配EMA來研究人們行為時的參考，提醒部署EMA於行動裝置上時需面臨的注意事項，依照不同應用情境或不同研究族群來調整EMA的抽樣協議、找到適合的機制或介入策略以最大化數據有效性及遵從性。最後提出疫情期間衍生的特殊議題，為往後研究發展的方向、拓展新的研究可能；同時點出可能降低這類EMA研究可推論性及可詮釋性的限制並提出改善建議，為往後採用EMA的研究者提供可遵循的參考報告準則。