走在汽車革命的路上論文書籍站
Cell line的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列包括價格和評價等資訊懶人包
Cell line的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦寫的 Polysaccharides of Microbial Origin: Biomedical Applications 和的 Polysaccharides of Microbial Origin: Biomedical Applications都 可以從中找到所需的評價。
另外網站Cell Line Authentication Services from ECACC - Culture ...也說明:Authentication of cell lines is important in scientific research to ensure that you are not working with cells that are misidentified, cross contaminated, ...
這兩本書分別來自 和所出版 。
國立陽明交通大學 電子研究所 鄭裕庭所指導 許睿祐的 應用於13.56MHz無線能量傳輸增益之超穎材料微型化設計與驗證 (2021),提出Cell line關鍵因素是什麼,來自於超穎材料、無線傳輸。
而第二篇論文國立陽明交通大學 電子研究所 林鴻志所指導 葉宇婕的 具有綠光雷射結晶多晶矽通道之T型閘薄膜電晶體射頻特性分析 (2021),提出因為有 薄膜電晶體、多晶矽、雷射結晶、T型閘極、射頻元件的重點而找出了 Cell line的解答。
最後網站Generating Stable Cell Lines with Lentivirus - Addgene則補充:Protocol to generate stable cell lines expressing a gene of interest from an integrated lentiviral vector.
Polysaccharides of Microbial Origin: Biomedical Applications
為了解決Cell line 的問題,作者 這樣論述:
Dr. Joaquim Miguel Oliveira (0000-0001-7052-8837), BSc, PhD (Portuguese, M, 41 years old) is a Principal Investigator "Investigador FCT 2012 and Investigador FCT 2015" at the PT Government Associate Laboratory ICVS/3B’s. He is the Vice President of I3Bs - Institute 3B’s (Univ. Minho) and Director o
f Pre-Clinical Research at the FIFA MEDICAL CENTER, Estádio do Dragão, Porto, PT since Feb. 2013 and Pro-Director of the 3B’s Research Group, Univ. Minho, PT. Currently, he is a Lecturer in Doctoral Program in Tissue Engineering, Regenerative Medicine and Stem Cells (TERM&SC) at UMinho, PT (since De
c. 2013). He is also an Invited lecturer at the Faculty of Medicine, U. Porto (since Sept. 2013) and Dept. of Polymer Eng., UM, PT (2009-present). Along the years he has focused his work on the field of biomaterials for tissue engineering, nanomedicine, stem cells and cell/drug delivery. More recent
ly, he set-up a new research line within the ICVS/3B’s on 3D in vitro models for cancer research.Dr. Hajer Radhouani (0000-0003-1007-4073), MsC, PhD (Tunisian/Belgian/Portuguese, F, 37 years old), is a postdoctoral researcher at the Portuguese Government Associate Laboratory ICVS/3B’s, University of
Minho. She has been working with biomaterials based on natural polysaccharides to treat different articular cartilage pathologies. She has been awarded with grants and funds that allow to develop a new biomaterial as a potential candidate for tissue engineering applications. Currently, she is worki
ng on Kefiran polymer as a novel therapy for OA treatment. She published 51 publications listed in ISI Web of Knowledge, 3 international granted patents and 3 book chapters, among others; having a Scopus h-index of 17 and more than 834 citations. She also presented more than 100 works (posters and o
ral presentations) in conferences and meetings.Prof. Rui L. Reis (0000-0002-4295-6129), DSc, Hon. Causa MD, Hon. Causa PhD, FBSE, FTERM, member NAE (USA), FAIMBE, FEAMBES is a Full Professor of Tissue Engineering, Regenerative Medicine, Biomaterials and Stem Cells at University of Minho (UMinho). He
is, since 2013, the Vice-Rector/Vice-President for Research and Innovation of the University of Minho, Braga & Guimarães, Portugal. He is also the Director of the 3B’s Research Group, part of the I3Bs - Research Institute on Biomaterials, Biodegradables and Biomimetics of the UMinho in Portugal, an
d the Director of the PT Government Associate Laboratory ICVS/3B´s.
Cell line進入發燒排行的影片
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應用於13.56MHz無線能量傳輸增益之超穎材料微型化設計與驗證
為了解決Cell line 的問題,作者許睿祐 這樣論述:
先前研究已開發出應用於植入式醫療器材無線充電效能增益之13.56MHz超穎材料(Metamaterial),並證實此超穎材料能提升無線充電天線線圈在未對準或是距離太遠之能量傳輸效率。由於先前提出的超穎材料尺寸過大,無法成功應用於現實生活中的無線充電系統,例如:智慧型手機、無線滑鼠甚至是植入式醫療器材等。本研究論文則提出利用鎳鋅軟磁作為磁性材料增加超穎材料的電感值進而微縮其尺寸,將原先超穎材料邊長從8.5cm縮小至6.5cm並測試其對於天線線圈無線傳輸的效率增益性,由量測結果可發現,傳輸距離在2cm以上,當置入微型化之超穎材料後,天線能量傳輸效率將有提升,且當傳輸距離越大,增益效率會越大。當傳
輸距離到3.5cm時,傳輸效率甚至能從原先之4%上升至11%,有近乎3倍的效率增益;另外,在天線線圈有水平錯位或是傾斜角度時,傳輸效率也能因置入超穎材料而有更好的傳輸效率,且當未對準的情況越嚴重時,傳輸效率的增益會越大,因此本研究證實利用磁性材料可以有效微縮超穎材料,並能維持相同之傳輸效率增益的效果,研究成果將有助於未來應用於植入式醫療器材之無線充電系統。
Polysaccharides of Microbial Origin: Biomedical Applications
為了解決Cell line 的問題,作者 這樣論述:
Dr. Joaquim Miguel Oliveira (0000-0001-7052-8837), BSc, PhD (Portuguese, M, 41 years old) is a Principal Investigator "Investigador FCT 2012 and Investigador FCT 2015" at the PT Government Associate Laboratory ICVS/3B’s. He is the Vice President of I3Bs - Institute 3B’s (Univ. Minho) and Director o
f Pre-Clinical Research at the FIFA MEDICAL CENTER, Estádio do Dragão, Porto, PT since Feb. 2013 and Pro-Director of the 3B’s Research Group, Univ. Minho, PT. Currently, he is a Lecturer in Doctoral Program in Tissue Engineering, Regenerative Medicine and Stem Cells (TERM&SC) at UMinho, PT (since De
c. 2013). He is also an Invited lecturer at the Faculty of Medicine, U. Porto (since Sept. 2013) and Dept. of Polymer Eng., UM, PT (2009-present). Along the years he has focused his work on the field of biomaterials for tissue engineering, nanomedicine, stem cells and cell/drug delivery. More recent
ly, he set-up a new research line within the ICVS/3B’s on 3D in vitro models for cancer research.Dr. Hajer Radhouani (0000-0003-1007-4073), MsC, PhD (Tunisian/Belgian/Portuguese, F, 37 years old), is a postdoctoral researcher at the Portuguese Government Associate Laboratory ICVS/3B’s, University of
Minho. She has been working with biomaterials based on natural polysaccharides to treat different articular cartilage pathologies. She has been awarded with grants and funds that allow to develop a new biomaterial as a potential candidate for tissue engineering applications. Currently, she is worki
ng on Kefiran polymer as a novel therapy for OA treatment. She published 51 publications listed in ISI Web of Knowledge, 3 international granted patents and 3 book chapters, among others; having a Scopus h-index of 17 and more than 834 citations. She also presented more than 100 works (posters and o
ral presentations) in conferences and meetings.Prof. Rui L. Reis (0000-0002-4295-6129), DSc, Hon. Causa MD, Hon. Causa PhD, FBSE, FTERM, member NAE (USA), FAIMBE, FEAMBES is a Full Professor of Tissue Engineering, Regenerative Medicine, Biomaterials and Stem Cells at University of Minho (UMinho). He
is, since 2013, the Vice-Rector/Vice-President for Research and Innovation of the University of Minho, Braga & Guimarães, Portugal. He is also the Director of the 3B’s Research Group, part of the I3Bs - Research Institute on Biomaterials, Biodegradables and Biomimetics of the UMinho in Portugal, an
d the Director of the PT Government Associate Laboratory ICVS/3B´s.
具有綠光雷射結晶多晶矽通道之T型閘薄膜電晶體射頻特性分析
為了解決Cell line 的問題,作者葉宇婕 這樣論述:
本論文中,我們研究具有T型閘極、空氣邊襯及矽化閘/源/汲極多晶矽薄膜電晶體的射頻特性。為了提升多晶矽薄膜的晶粒尺寸,我們使用綠光奈秒雷射來製備厚度為50 nm與100 nm的多晶矽薄膜。結果顯示厚度為100 nm的薄膜能得到等效尺寸大於1 μm的晶粒大小,遠優於50 nm厚的多晶矽薄膜。我們於元件製作時採用了新穎的T型閘極技術,不僅降低元件的閘極電阻,也使電晶體具有比微影技術解析極限更小的閘極線寬,使轉導得以大幅提升。我們也分別利用高溫的快速熱退火及低溫的微波退火來活化源汲極雜質。在通道厚度為100 nm並以快速熱退火進行源汲極活化的多晶矽薄膜電晶體中,對最小通道長度達124 nm之元件,截
止頻率可達59.7 GHz,最大震盪頻率亦可達34 GHz。具有相同通道厚度並以微波退火來活化雜質的電晶體中,當通道長度微縮至102 nm,元件的截止頻率更高達63.6 GHz,最大震盪頻率亦可達29.7 GHz。相較過往文獻報導的多晶矽薄膜元件,我們以微波活化源汲極的薄膜電晶體達到了最高的截止頻率。