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Perovskite-Based Solar Cells: From Fundamentals to Tandem Devices

為了解決Moreover furthermore的問題，作者Laalioui, Saida 這樣論述：

＂Perovskite-Based Solar Cells: From Fundamentals to Tandem Devices＂ gives fundamental understanding of perovskite solar cells from the chemical composition of each thin layer composing the different stacks to the whole device. Special attention has been given to the development of the materials f

orming the perovskite solar cell and their effect on the device performance, in addition to the recent progress of this emerging technology. Moreover, light has been shed on the perovskite elaboration techniques, in addition to the several techniques proposed to improve both the efficiency and the s

tability of perovskite solar cells. Furthermore, special emphasis was given to the three types of tandem solar cells and their recent advances starting from Perovskite/perovskite tandem solar cells to Perovskite/ CIGS tandem cells to perovskite/ heterojunction silicon tandem solar cells. The latter

constitute a promising solution to improve photovoltaic solar cells performance.

Moreover furthermore進入發燒排行的影片

基於深度學習進行電池性質預測

為了解決Moreover furthermore的問題，作者許家維 這樣論述：

鋰離子電池作為常見的儲能設備，廣泛應用於終端設備上且藉由電池管理系統進行監控確保電池老化程度仍可應付工作所需。然而電池在使用初期並無明顯老化特性的反應，因此對於使用過的電池無法很好評估預期壽命以至於材料的浪費或設備的異常(Early failure)。本研究利用時序資料連續性進行資料擴增更同時對神經網路潛空間進行正則化，並透過包含篩選器與預測器的神經網路架構在僅有少量循環的量測數據下，預測電池產品壽命、剩餘使用壽命、充電所需時間、放電時的電壓電量變化曲線等。其中，僅測量一個充放電完整循環的數據，就能提供僅有57週期方均根誤差的產品壽命預測。本研究亦同時引入注意力機制於此框架中達成僅使用若干個

循環的測量資料便可預測整個電池的產品週期放電電量、放電功耗等特性。

Hydrological Modeling: Hydraulics, Water Resources and Coastal Engineering

為了解決Moreover furthermore的問題，作者 這樣論述：

Ramakar Jha is a chair professor at the Department of Civil Engineering and has 30 years of experience in the field of Hydrology andwater resources engineering. Dr Jha is presently working as Chair Professor in the Department of Civil Engineering, National Institute of Technology (NIT) Patna-INDIA,

which is a Premier Institute in India under the Ministry of Human Resource Development, Government of India. Dr. Jha has served at various levels from Scientist-B to Scientist-E1 at National Institute of Hydrology (NIH), Roorkee, India and as Professor in the Department of Civil Engineering, NIT Rou

rkela. He has worked and working as Country Co-ordinator of UNESCO- GWADI and Principal Investigator for many International (EU-FP7, DAAD, ADB, AUS-Aid) and National research and consultancy projects (ISRO, DST, MoWR, MHRD). Moreover, he served as Chair for many administrative positions and received

a coupel of international and national awards for research papers. Presently, he is working as Dr Rajendra Prasad Chair for Water resources under the Ministry of Water Resources, Government of India in the Department of Civil Engineering, NIT Patna, BiharV. P. Singh A Texas A&M professor of Indian

origin is receiving a prestigious award for his world-renowned work on water. Vijay P. Singh is receiving the 2013 Lifetime Achievement Award from the American Society of Civil Engineers-Environmental and Water Resources Institute, otherwise known as the ASCE-EWRI. The award is in recognition of Sin

gh’s work in the field of hydrology, which is the study of water in all aspects, such as quality, distribution, preservation, transportation, etc. Some of the work he has done has even created an entire new branch of hydrology - called entropic hydrology - that is connected to the study of entropy,

which means essentially the study of order and disorder as it relates to the physical universe. His work is considered fundamental for flood planning and water modeling around the world. Since earning his doctorate degree, Singh has held teaching positions in some of the most well-known universities

in the US. He was an Associate Research Professor of Civil Engineering at George Washington University from 1977-78, an Associate Professor of Civil Engineering at Mississippi University from 1978-81, and an adjunct professor as well as the coordinator of the Environmental and Water Resources Syste

ms Engineering Program at Louisiana State University from 1999-2006 and 2001-2006, respectively. Singh joined Texas A&M University in 2006, where he currently wears a number of different hats. He is a professor of biological and agricultural engineering, a professor of civil and environment engineer

ing, and a Caroline and William N. Lehrer Distinguished Chair in Water Engineering (Hydrology). He has authored or edited around 10 published works in the fields of engineering and hydrology.Vivekanand Singh is a professor at the Department of Civil Engineering and has 28 years of experience in the

field of River Hydraulics, groundwater andwater resources engineering. Dr. Singh has published research papers in International Journals including ASCE Journal. He has done National projects and Consultancy during his work at NIT Patna. Prior to this, Dr. Singh was Scientist at National Institute of

Hydrology Roorkee. He organized several summer courses, conferences and workshops. He has been working as Editor in some Indian Journals.L. B. Roy is a professor at the Department of Civil Engineering and has 33 years of experience in the field of water resources engineering as well as geotechnical

engineering. Dr. Roy has been serving the Water Resources Engineering Department for long time and carried out various field based research activities for different river systems of the region with special emphasis to floods. Dr. Roy has been involved in many research projects and published several

research papers in peer reviewed journals. He has been working for Intellectual Property Rights (IPR) and received awards for various activities.Roshni T. is an assistant professor at the Department of Civil Engineering and has 9 years of experience in the field of water resources engineering. Dr.

Roshni earned her PhD in Civil Engineering at the University of Pisa, Italy. After obtaining Ph.D, Dr Roshni had joined National Institute of Technology Calicut, India as an Adhoc faculty and later joined National Institute of Technology Patna as an Assistant Professor. She has supervised 2 PhD, mor

e than 30 Master theses. Furthermore, she has been awarded DST-SERB project for the topic Two Phase flows and Water Quality in Rivers, funded by Department of Science and Technology, MHRD India. Results obtained from her research have been published nearly 30 papers in international journals and mor

e than 15 papers in International conferences and 3 book chapters. Dr. Roshni is active in a variety of professional bodies and she has organized numerous workshops and conferences in her academic career.

大台北地區冬季期間細懸浮微粒中水溶性離子組成特徵探討

為了解決Moreover furthermore的問題，作者杜育誠 這樣論述：

本研究探討冬季期間大台北地區大氣中細懸浮微粒的水溶性離子組成特性及逐時變動趨勢。於2021年1月1日至2021年3月31日在新北市泰山區明志科技大學校園內利用氣體與氣膠同步採樣連續監測儀(2060 MARGA R)分析每小時HNO3、SO2及NH3氣體與NH4+、Na+、K+、Ca2+、Mg2+、Cl-、NO3-及SO42-離子濃度。結果顯示HNO3、SO2及NH3在採樣期間的平均濃度分別為0.39 μg/m3、0.26 μg/m3及3.24 μg/m3。陽離子NH4+、Na+、K+、Ca2+及Mg2+的平均濃度分別為1.73、0.30、0.17、0.08及0.06 μg/m3。陰離子SO4

2-、NO3-及Cl-的平均濃度分別為3.12、2.32及0.40 μg/m3。其中Na+、Ca2+、K+及SO42-分別約有49.06%、10.65%、5.83%及2.30%是來自於海鹽飛沫。採樣期間水溶性離子占PM2.5質量濃度約42.44%，其中以SO42-、NO3-及NH4+為主要組成，占總水溶性離子約84.06%。採樣期間的硫氧化率(SOR)與氮氧化率(NOR)平均值分別為0.91與0.78，顯示採樣期間微粒中所含的SO42-及NO3-主要來自衍生性硫酸鹽及硝酸鹽。而本研究採樣期間的中和率(NR)平均值為1.02，顯示微粒接近於中性。採樣期間共有180小時PM2.5質量濃度超過35

μg/m3，事件小時(PM2.5≥ 35 μg/m3)的水溶性離子由高到低依序為NO3-、SO42-、NH4+、Cl-、K+、Na+、Ca2+、Mg2+。在事件小時中，除了Na+以外，其餘水溶性離子平均質量濃度皆高於非事件小時(PM2.5< 35 μg/m3)。但若依照水溶性離子占PM2.5比例來看，除了NO3-及NH4+占比有所提升外，其餘水溶性離子占PM2.5皆為下降趨勢。同時NOR在事件小時期間顯著增加，可見在事件小時期間所增加的衍生氣膠主要以NH4NO3微粒為主。另外藉由NR中和率來看，在事件小時的NR較非事件小時略高，相較而言較偏鹼性，表示有較多量的NH3可以中和大氣中HNO3及H2

SO4。