Sc Express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

Handbook of Tissue Optical Clearing: New Prospects in Optical Imaging

為了解決Sc Express的問題，作者 這樣論述：

Valery V. Tuchin - Corresponding Member of the Russian Academy of Sciences, Professor, Head of the Department of Optics and Biophotonics and Director of the Scientific Medical Center of the Saratov State University. He is also the Head of the laboratory for laser diagnostics of technical and living

systems at the Institute of Precise Mechanics and Control of the RAS, the supervisor of the Interdisciplinary Laboratory of Biophotonics at the National Research Tomsk State University and the Femtomedicine Laboratory of the ITMO University.His research interests include biophotonics, biomedical opt

ics, tissue optics, laser medicine, tissue optical clearing, and nanobiophotonics.He is a member of SPIE, OSA and IEEE, Visiting Professor at HUST (Wuhan) and Tianjin Universities in China, and Adjunct Professor at the University of Limerick (Ireland) and the National University of Ireland (Galway).

Professor Tuchin was elected Fellow SPIE and OSA, he was awarded many titles and awards, including Honored Scientist of the Russian Federation, Honored Professor of SSU, Honored Professor of Finland (FiDiPro), SPIE in the field of optical education, Chime Bell of Hubei province (China), Joseph Goodm

an (OSA / SPIE) for Outstanding Monograph (2015), Michael Feld (OSA) for Pioneering Research in Biophotonics (2019), the Medal of the D.S. Rozhdestvensky Optical Society (2018) and the Alexander Mikhailovich Prokhorov medal of the Academy of Engineering Sciences named after A.M. Prokhorov (2021).He

is the author of over 700 articles (Web of Science), 30 monographs and textbooks, has over 60 patents, his work has been cited over 30,000 times.Dan Zhu is a distinguished professor of Huazhong University of Science & Technology (HUST), and the Vice-Director of Wuhan National Optoelectronics Laborat

ory，Vice-Director of Key Laboratory of Biomedical Photonics (HUST), Ministry of Education.Her research interests include tissue optical imaging theory and methods, especially, focus on tissue optical clearing imaging and applications. She has authored more than 150 papers including Science Advances,

Nature Communications, et al. She was elected Fellow of SPIE, and Secretary General & Vice President of Biomedical Photonics　Committee of Chinese Optical Society. She serves for some international or domestic conference as chair or co-chair, and some journals as guest editor or editorial member, in

cluding Biomedical Optics Express, Journal of Biomedical Optical, Scientific Reports, Journal of Innovative Optical Health Sciences, Frontier of Optoelectronics et al.Elina A. Genina, PhD, Dr. Sc. is a professor in the Departments of Optics and Biophotonics at Saratov State University. Her research

interests include biomedical optics, laser medicine, nanobiophotonics, and development of methods for control of tissue optical properties. She is a coauthor of more than 300 peer-reviewed publications, analytical reviews, book chapters, and patents on Biomedical Optics, guest editor of 18 special i

ssues of journals and proceedings. She is a member of editorial board of J. Innovative Optical Health Sciences, Diagnostics, J. Biomedical Photonics & Engineering, and The Open Biomedical Engineering Journal. She is a scientific secretary of International Symposium on Optics and Biophotonics (Sarato

v Fall Meeting) and co-chair of a conference in the framework of the Symposium. She has more than 4000 citations and h-index 30.

Sc Express進入發燒排行的影片

一種針對多資料流之公平性與多個NVMe固態硬碟之負載平衡的狀態感知方法

為了解決Sc Express的問題，作者陳亮廷 這樣論述：

現今，固態硬碟（SSD）與傳統硬碟（HDD）相比，憑藉其體積小、功耗低、抗震、靜音、存取速度快、非易失性等顯著優勢，成為存儲設備的最佳選擇。越來越多的場景採用多SSD架構來提升性能和擴展存儲容量，例如雲服務、資料中心、分散式系統和虛擬化環境。當多個用戶（資料流）同時競爭多個共享的SSD時，如果多SSD架構缺乏多個用戶之間的公平策略，那麼佔用資源較多的用戶可能會影響其他用戶。同時，如果多SSD架構缺乏多個共享SSD之間的負載平衡策略，某些特定SSD可能會收到過多的I/O請求，從而降低性能並縮短使用壽命。因此，我們提出一種有趣的狀態感知方法來考慮多資料流之公平性與多個NVMe固態硬碟之負載平衡。

實驗結果表明，與其他方法相比，本文提出的方法平均提高了1.2x~1.4x的公平性和1.2x~2.6x的負載平衡。

Soft Computing in Interdisciplinary Sciences

為了解決Sc Express的問題，作者 這樣論述：

Professor S. Chakraverty has 29 years of experience as a researcher and teacher. Presently, he is working in the Department of Mathematics (Applied Mathematics Group), National Institute of Technology Rourkela, Odisha, as a senior (Higher Administrative Grade) professor. Prior to this, he was with C

entral Building Research Institute (CSIR), Roorkee, India. After completing Graduation from St. Columba’s College (Ranchi University), his career started from the University of Roorkee (now, Indian Institute of Technology Roorkee) and did M. Sc. (Mathematics) and M. Phil. (Computer Applications) fro

m there securing the first positions in the university. Dr. Chakraverty received his Ph. D. from IIT Roorkee in 1992. Thereafter, he did his postdoctoral research at the Institute of Sound and Vibration Research (ISVR), University of Southampton, U.K., and at the Faculty of Engineering and Computer

Science, Concordia University, Canada. He was also a visiting professor at Concordia and McGill universities, Canada, during 1997-1999 and a visiting professor of University of Johannesburg, South Africa, during 2011-2014. He has authored/co-authored/Edited 23 books, published 388 research papers (t

ill date) in journals and conferences, two more books are in Press, and two books are ongoing. He is in the Editorial Boards of various International Journals, Book Series and Conferences. Professor Chakraverty is the chief editor of ＂International Journal of Fuzzy Computation and Modelling＂ (IJFCM)

, Inderscience Publisher, Switzerland, an associate editor of ＂Computational Methods in Structural Engineering, Frontiers in Built Environment＂ and happens to be the editorial board member of ＂Springer Nature Applied Sciences＂, ＂IGI Research Insights Books＂, ＂Springer Book Series of Modeling and Opt

imization in Science and Technologies＂, ＂Coupled Systems Mechanics (Techno Press)＂, ＂Curved and Layered Structures (De Gruyter)＂, ＂Journal of Composites Science (MDPI)＂, ＂Engineering Research Express (IOP)＂ and ＂Applications and Applied Mathematics: An International Journal＂. He is also the reviewer

of around 50 national and international journals of repute, and he was the president of the Section of Mathematical Sciences (including Statistics) of ＂Indian Science Congress＂ (2015-2016) and was the vice president--＂Orissa Mathematical Society＂ (2011-2013). Professor Chakraverty is a recipient of

prestigious awards, viz. Indian National Science Academy (INSA) nomination under International Collaboration/Bilateral Exchange Program (with the Czech Republic), Platinum Jubilee ISCA Lecture Award (2014), CSIR Young Scientist Award (1997), BOYSCAST Fellow. (DST), UCOST Young Scientist Award (2007

, 2008), Golden Jubilee Director’s (CBRI) Award (2001), INSA International Bilateral Exchange Award ([2010-11 (selected but could not undertake), 2015 (selected)], Roorkee University Gold Medals (1987, 1988) for first positions in M. Sc. and M. Phil. (Comp. Appl.), etc. He has already guided ninetee

n (19) Ph. D. students, and twelve are ongoing. He is in the list of 2% world scientists recently (2020) in ＂Artificial Intelligence & Image Processing＂ category based on an independent study done by Stanford University scientists. His world rank is 1862 out of 215114 researchers throughout the glob

e. Professor Chakraverty has undertaken around 17 research projects as a principle investigator funded by international and national agencies totaling about Rs.1.6 crores. He has hoisted around 8 international students with different international/national fellowships to work in his group as PDF, Ph

D, visiting researchers for different periods. A good number of international and national conferences, workshops and training programs have also been organised by him. His present research area includes differential equations (ordinary, partial and fractional), numerical analysis and computational

methods, structural dynamics (FGM, nano) and fluid dynamics, mathematical and uncertainty modeling, soft computing and machine intelligence (artificial neural network, fuzzy, interval and affine computations).

用於高性能超級電容器和無負極鋰金屬電池的碳基和聚合物基複合電解質

為了解決Sc Express的問題，作者Haylay Ghidey Redda 這樣論述：

尋找具有高容量、循環壽命、效率和能量密度等特性的新型材料，是超級電容器和鋰金屬電池等綠色儲能裝置的首要任務。然而，安全挑戰、比容量和自體放電低、循環壽命差等因素限制了其應用。為了克服這些挑戰，我們設計的系統結合垂直排列的碳奈米管 (Vertical-Aligned Carbon Nanotubes, VACNT)、塗佈在於VACNT 的氧化鈦、活性材料的活性炭、凝膠聚合物電解質的隔膜以及用於綠色儲能裝置的電解質。透過此研究，因其易於擴大規模、低成本、提升安全性的特性，將允許新的超級電容器和電池設計，進入電動汽車、電子產品、通信設備等眾多潛在市場。於首項研究中，作為雙電層電容器 (Electr

ic Double-Layer Capacitor, EDLC) 的電極，碳奈米管 (VACNTs) 透過熱化學氣相沉積 (Thermal Chemical Vapor Deposition, CVD) 技術，在 750 ℃ 下成功地垂直排列生長於不銹鋼板 (SUS) 基板上。此過程使用Al (20 nm) 為緩衝層、Fe (5 nm) 為催化劑層，以利VACNTs/SUS生長。為提高 EDLC 容量，我們在氬氣、氣氛中以 TiO2 為靶材，使用射頻磁控濺射技術 (Radio-Frequency Magnetron Sputtering, RFMS) 將 TiO2 奈米顆粒的金紅石相沉積到 V

ACNT 上，過程無需加熱基板。接續進行表徵研究，透過掃描電子顯微鏡 (Scanning Electron Microscopy, SEM)、能量色散光譜 (Energy Dispersive Spectroscopy, EDS)、穿透式電子顯微鏡 (Transmission Electron Microscopy, TEM)、拉曼光譜 (Raman Spectroscopy) 和 X 光繞射儀 (X-Ray Diffraction, XRD) 對所製備的 VACNTs/SUS 和 TiO2/VACNTs/SUS 進行研究。根據實驗結果，奈米碳管呈現隨機取向並且大致垂直於SUS襯底的表面。由拉

曼光譜結果顯示VACNTs表面上的 TiO2 晶體結構為金紅石狀 (rutile) 。於室溫下使用三電極配置系統在 0.1 M KOH 水性電解質溶液中通過循環伏安法 (Cyclic Voltammetry, CV) 和恆電流充放電，評估具有 VACNT 和 TiO2/VACANT 複合電極的 EDLC 的電化學性能。電極材料的電化學測量證實，在 0.01 V/s 的掃描速率下，與純 VANCTs/SUS (606) 相比，TiO2/VACNTs/SUS 表現出更高的比電容 (1289 F/g) 。用金紅石狀 TiO2 包覆 VACNT 使其更穩定，並有利於 VACNT 複合材料的side w

ells。VACNT/SUS上呈金紅石狀的TiO2 RFMS沉積擁有巨大表面積，很適合應用於 EDLC。在次項研究，我們聚焦在開發用於柔性固態超級電容器 (Flexible Solid-State Supercapacitor, FSSC) 的新型凝膠聚合物電解質。透過製備活性炭 (Activated Carbon, AC) 電極的柔性 GPE (Gel Polymer Electrolytes) 薄膜，由此提升 FSSC 的電化學穩定性。GPE薄膜含有1-ethyl-3-methylimidazolium bis(trifluoromethylsulfony)imide, poly (vin

ylidene fluoride-cohexafluoropropylene) (EMIM TFSI) with Li1.5Al0.33Sc0.17Ge1.5(PO4)3 (LASGP)作為FSSC的陶瓷填料應用。並使用掃描式電子顯微鏡 (SEM)、X 光繞射、傅立葉轉換紅外光譜 (Fourier-Transform Infrared, FTIR)、熱重力分析 (ThermoGravimetric Analysis, TGA) 和電化學測試，針對製備的 GPE 薄膜的表面形貌、微觀結構、熱穩定性和電化學性能進行表徵研究。由SEM 證實，隨著將 IL (Ionic Liquid) 添加到主體聚合

物溶液中，成功生成具光滑和均勻孔隙表面的均勻相。XRD圖譜表明PVDF-HFP共混物具有半結晶結構，其無定形性質隨著EMIM TFSI和LASGP陶瓷填料的增加而提升。因此GPE 薄膜因其高離子電導率 (7.8 X 10-2 S/cm)、高達 346 ℃ 的優異熱穩定性和高達 8.5 V 的電化學穩定性而被用作電解質和隔膜 ( -3.7 V 至 4.7 V) 在室溫下。令人感到興趣的是，採用 LASGP 陶瓷填料的 FSSC 電池具有較高的比電容(131.19 F/g)，其對應的比能量密度在 1 mA 時達到 (30.78 W h/ kg) 。這些結果表明，帶有交流電極的 GPE 薄膜可以成為

先進奈米技術系統和 FSSC 應用的候選材料。最終，是應用所製備的新型凝膠聚合物電解質用於無陽極鋰金屬電池 (Anode-Free Lithium Metal Battery, AFLMB)。此種新方法使用凝膠聚合物電解質獲得 AFLMB 所需電化學性能，該電解質夾在陽極和陰極表面上，是使用刮刀技術製造14 ~ 20 µm 超薄薄膜。凝膠聚合物電解質由1-ethyl-3-methylimidazolium bis(trifluoromethyl sulfonyl)imide 作為離子液體 (IL), poly(vinylidene fluoride-co-hexafluoropropylene

) (PVDF-HFP)作為主體聚合物組成，在無 Li1.5Al0.33Sc0.17Ge1.5(PO4)3 (LASGP) 作為陶瓷填料的情況下，採用離子-液體-聚合物凝膠法 (ionic-liquid-polymer gelation) 製備。在 25℃ 和 50℃ 的 Li+/Li 相比，具有 LASGP 陶瓷填料的 GPE 可提供高達5.22×〖10〗^(-3) S cm-1的離子電導率，電化學穩定性高達 5.31 V。改良的 AFLMB於 0.2 mA/cm2 和50℃ 進行 65 次循環後，仍擁有優異的 98.28 % 平均庫侖效率和 42.82 % 的可逆容量保持率。因此，使用這種

陶瓷填料與基於離子液體的聚合物電解質相結合，可以進一步證明凝膠狀電解質在無陽極金屬鋰電池中的實際應用。