Nanotechnology的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列懶人包和總整理

Nanotechnology in Construction Materials: Developments in Cement-Based Systems

為了解決Nanotechnology的問題，作者Cerro-Prada, Elena 這樣論述：

Calcium silicate hydrate, as the principal component of the hydration of Portland cement, has been the topic of intensive research over the past several years. An understanding of the nature of this hydration product at the nanoscale is essential for the strategic modification of conventional cement

-based systems and the development of new materials with enhanced properties. This book will explore this topic and how to enhance concrete functionalities utilizing nanotechnology. Dr. Elena Cerro-Prada received her PhD in Physics from the Autonoma University of Madrid. She lectured at the Unive

rsity of Birmingham, UK, and worked at CERN within the Nobel Laureate Carlo Rubia, among other research and academic positions. Dr Cerro-Prada currently serves as Professor and Head of the Physics Department at the Technical University of Madrid. Dr. Cerro-Prada has contributed greatly to the unders

tanding of cementitious materials microstructure by applications of nanotechnology and nanomaterials. She is currently involved in the development of cement-based materials with photocatalytic properties as long as agent-based cementitious material modeling.

Nanotechnology進入發燒排行的影片

鉍改質二氧化鈦奈米管陣列電極應用於脫鹽及能量儲存之雙功能電池

為了解決Nanotechnology的問題，作者胡進煇 這樣論述：

隨著人口增加、劇烈的氣候變化和環境的污染，水資源匱乏以及能源危機問題將會在未來幾十年內持續下去。由於海洋的水資源無限，海水淡化自然成為了解決淡水短缺的解答。海水淡化可以使高濃度的海水轉化成淡水，藉以增加淡水的量，且不受氣候的影響。主要研究是發展低耗能、低成本以及多樣化的淡化技術。鉍除了可以做為氯氣的儲存電極，也發現可以應用於可充電之脫鹽電池，另外鉍和氯氧化鉍皆不可溶於寬廣的pH值以及電位範圍的鹽水溶液，因此在海水中能夠重複使用。本研究以陽極處理得之的二氧化鈦奈米管作為模板，透過無電鍍法將鉍沉積於二氧化鈦奈米管作為氯化物儲存電極。氯離子以氯氧化鉍形式儲存在鉍奈米管陣列中。為探討氯化及脫氯行為，

以實驗半電池反應對鉍奈米管陣列電極進行線性掃描伏安法 (LSV) 和循環伏安法 (CV)。以及探討由不同電壓20V、30V以及40V二氧化鈦奈米管模板製備下，鉍奈米管陣列的差別。

Viral and Antiviral Nanomaterials: Synthesis, Properties, Characterization, and Application

為了解決Nanotechnology的問題，作者 這樣論述：

Devarajan Thangadurai, PhD, is Assistant Professor at Karnatak University, Dharwad in India and did his postdoctoral research at the University of Madeira, Portugal, University of Delhi, India, and ICAR National Research Centre for Banana, India. He is the recipient of Best Young Scientist Award wit

h Gold Medal from Acharya Nagarjuna University, India, and the VGST-SMYSR Young Scientist Award of the Government of Karnataka, India. He has interest and expertise in the fields of biotechnology and nanotechnology for sustainable future. He has authored/edited more than twenty five books with inter

national publishers in USA, Canada, Switzerland and India. He has authored/coauthored 210 publications inclusive of journal articles, book chapters, books and invited presentations. He has extensively travelled to many universities and institutes in Africa, Europe and Asia for academic works, scient

ific meetings, and international collaborations. Saher Islam, PhD, is an HEC Scholar (Higher Education Commission) of the Islamic Republic of Pakistan at the University of Veterinary and Animal Sciences, Lahore, where she received her BS, MPhil and PhD in Molecular Biology, Biotechnology and Bioinfo

rmatics. She is IRSIP Scholar at Cornell University, New York and Visiting Scholar at West Virginia State University, West Virginia in USA. She has keen research interests in genetics, molecular biology, biotechnology, and bioinformatics pertaining to animal, dairy and food science, and has ample ha

nds on experience in molecular marker analysis, whole genome sequencing and RNA sequencing. She has visited USA, UK, Singapore, Germany, Italy and Russia for academic and scientific trainings, courses, and meetings. She is the recipient of 2016 Boehringer Ingelheim Fonds Travel Grant from European M

olecular Biology Laboratory, Germany. She is an author/coauthor of 50 publications including journal articles, book chapters, books and conference presentations. Charles Oluwaseun Adetunji, PhD, is presently the Ag. Director of Intellectual Properties and Technology Transfer; Chairman Committee on R

esearch Grant and Associate Professor of Microbiology and Biotechnology at EUI. He has won several scientific awards and grants from renowned academic bodies like Council of Scientific and Industrial Research (CSIR) India, and Department of Biotechnology (DBT) India, The World Academy of Science (TW

AS) Italy, Netherlands Fellowship Programme (NPF) Netherlands, The Agency for International Development Cooperation Israel, Royal Academy of Engineering UK among many others. He has filed several scientific patents on nanobiosurfactants, nanobiopesticdes and many more. He has published over 150 scie

ntific journals and conference proceedings in international and local refereed journals. His research interest includes microbiology, biotechnology, post-harvest management, and nanotechnology. He is an editorial board member of many international journals and serves as a reviewer to many double-bli

nd peer review journals of Elsevier, Springer, Taylor and Francis, Wiley, PLOS One, Nature, American Chemistry Society, Bentham Science Publishers etc. He is a member of many scientific and professional bodies like American Society for Microbiology, Nigerian Young Academy, Biotechnology Society of N

igeria, and Nigerian Society for Microbiology. He has won international recognition and also acted as a keynote speaker delivering invited talk/position paper at various universities, research institutes and several centers of excellence which span across several continent of the globe. He has over

the last fifteen years built strong working collaborations with reputable research groups in numerous and leading Universities across the globe. He is the convener for Recent Advances in Biotechnology, which is an annual international conference where renowned microbiologists and biotechnologists co

me together to share their latest discoveries. He is also the Founder & CEO of BECTIK Biotechnology and Nanotechnology Company.

二維過渡金屬二硫屬化物及其異質結構之光學研究

為了解決Nanotechnology的問題，作者許浩哲 這樣論述：

過去幾年，二維材料在光電元件中展現出新的光電特性，使其成為未來光電元件的新星。單層二維材料具有發光效率極高的優點，後續衍生出二維材料異質結構。在我們之前的研究中，我們探索了TMD單層及其異質結構的光學特性。在這些工作中，通過機械剝離法從散裝材料中獲得二維TMD，為了獲得大尺寸的單層，採用了所謂的金輔助剝離。雖然發現金輔助剝離法可用於製備大面積單層，但在金沉積過程中，單層表面會被金原子或製造過程中使用的化學物質損壞。表面降解在異質結構的製備中更為關鍵，我們無法從金輔助剝離法製備的TMD 異質結構中獲得對於層間激子一個完整並且深入的理解。在這項工作中，我們使用了一種利用PDMS的典型且更簡單的剝

離方法，並最大限度地減少了化學過程，以確保兩個TMD單層堆疊的清潔表面，並顯著改善了TMD異質結構的層間相互作用。在此兩種單層表面乾淨以及角度正確的堆疊下，我們的成就在於觀察到二硒化鉬與二硒化鎢的異構物層間激子低溫下自旋軌道分裂，然後在100-150K時量子效應消失產生相變，以及觀察到二硫化鎢與二硒化鎢的異構物層間激子，此異構物在2018年以前有許多團隊進行嘗試，然而皆未觀察到層間激子，我們常溫下也並未觀察到層間激子，然而進行低溫量測下我們發現了層間激子，其具有相當低的束縛能，解釋了為何常溫下無法觀測。這項工作幫助我們更深入地了解單層材料和TMD異質結構的靜態和動態特性。