走在汽車革命的路上論文書籍站
insight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
insight的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦Brosnan, Matt寫的 A Considerable Achievement: The Tactical Development of the 56th (London) Division on the Western Front, 1916-1918 和Insight Guides的 Insight Guides Flexi Map Seville (Insight Maps)都 可以從中找到所需的評價。
這兩本書分別來自 和所出版 。
國立陽明交通大學 永續化學科技國際研究生博士學位學程 孫世勝、鄭彥如所指導 吳杰畢的 用於染料敏化電池的無金屬有機染料之結構設計 (2021),提出 insight關鍵因素是什麼,來自於染料敏化太陽能電池、輔助受體對、二丁基芴基、D-A-π-A、環戊二噻吩、有機染料、弱光照明。
而第二篇論文國立交通大學 生物資訊及系統生物研究所 尤禎祥所指導 謝明修的 布里斯洛中間體自由基反應機制之理論研究 (2021),提出因為有 布里斯洛中間體、反應機構、自由基、含氮雜環卡賓、轉酮醇酶的重點而找出了 insight的解答。
A Considerable Achievement: The Tactical Development of the 56th (London) Division on the Western Front, 1916-1918
為了解決 insight 的問題,作者Brosnan, Matt 這樣論述:
Nearly a century on, the operational performance of the British Expeditionary Force (BEF) on the Western Front during the First World War is still a hotly debated subject. The dominant perception is one of a conflict characterized by mud, trenches and futility, presided over by incompetent comman
ders. But over the last thirty years a different view has emerged and gained increasing prominence. Many historians have argued that the BEF deserves more credit for the wartime learning curve it underwent in evolving from a small professional force into a mass citizen army, which helped it to end t
he war victorious. The BEF has become the subject of even more detailed research, as historians have sought to investigate all aspects of its operational practice. This book enters into this debate by taking a detailed look at a single infantry division, one of the BEF's vital constituent parts. It
focuses on the 56th (London) Division, a first-line Territorial division that served continuously on the Western Front between February 1916 and November 1918. By focusing on and comparing three key battles in the Division's service - the Battle of Gommecourt on 1 July 1916, the Battle of Arras on 9
April 1917 and the Battle of Albert on 23 August 1918 - this study provides detailed insight into 56th Division's tactical development. It suggests that by the last year of the war, 56th Division had developed sophisticated offensive tactics born out of years of hard-fought experience. This study u
tilizes a range of archival sources, including the official documents of war diaries, operational orders and battle reports. But it also references the private papers of the officers and men who served in 56th Division, gaining the insight of individuals who witnessed and took part in these events a
t first hand. The voices that emerge from these sources are a testament to the dedication of many of the men who served with the Division and who helped it to develop increasingly effective fighting methods, as was also the case with the BEF as a whole. The 56th (London) Division therefore deserves
to be remembered for its contribution to a painful, but ultimately victorious war effort. Matt Brosnan was educated at the University of Birmingham, where he studied History and English at undergraduate level and then Twentieth Century British History at postgraduate level. His postgraduate research
was on the tactical development of 56th Division on the Western Front, which has been extended to form the present study. Since 2006 he has worked at the Imperial War Museum in London, initially as a Curator in the Department of Art, which holds the largest collection of modern British art outside
the Tate. He curated displays on the Hall of Remembrance art scheme of the First World War and Neo-Romantic art of the Second World War period. He currently works as a Historian in the Research and Information Department, where he is researching forthcoming exhibitions on Frontline Medicine and also
for the centenary of the First World War. A Considerable Achievement is his first publication. He was born and lives in north London.
insight進入發燒排行的影片
用於染料敏化電池的無金屬有機染料之結構設計
為了解決 insight 的問題,作者吳杰畢 這樣論述:
摘要第三代光伏的染料敏化太陽能電池 (DSSC)的興起,造成在過去的三十年中被廣泛地探索,因為它們具有的獨特特性,例如成本低、製造工藝簡單、輕巧、柔韌性好、對環境友善,並且在弱光條件下,仍具備突破性的高效率。儘管, DSSCs 依然有許多須待優化的部分,但藉由光捕獲染料光敏劑的分子結構設計,在優化 DSSCs 性能參數方面扮演關鍵的作用。因此,尋找符合DSSC需求的光敏染料,是該研究領域的關鍵研究方向之一。本論文的最終目標是在標準日照和弱光條件下,尋找高效穩定的有機光敏染料。這項工作是藉由無金屬有機光敏劑的系統結構工程來完成的,針對分子結構設計與光電特性的關聯及DSSC的效能表現。在本論文中
,我們已經合成了各種新型光敏染料,並對這些無金屬有機光敏染料進行了逐步的結構修飾,例如在單個敏化染料中引入一對輔助受體,在 D-A-π-A 框架中引入龐大的芴基實體,並增加共平面性以及延伸喹喔啉染料主要框架的共軛。通過使用各種光譜、電化學和理論計算來研究這些光敏染料的結構性質,以符合它們在DSSC主要特徵之應用前景。最後,在本論文中,我們展示了一組無金屬有機光敏劑,其元件效率高,在標準太陽照射下的效率超過 9%,在 6000 lux 的弱光照下,效率超過 30%,這將是一個具有未來發展潛力的結構設計,可以在沒有共吸附劑的情況下實現高效率。
Insight Guides Flexi Map Seville (Insight Maps)
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為了解決 insight 的問題,作者Insight Guides 這樣論述:
布里斯洛中間體自由基反應機制之理論研究
為了解決 insight 的問題,作者謝明修 這樣論述:
含氮雜環卡賓(N-heterocyclic carbene)催化之化學反應中,布里斯洛中間體(Breslow intermediate)扮演重要的催化角色。布里斯洛中間體能以親核基(nucleophile)或自由基(radical)之形式參與反應。本論文探討布里斯洛中間體之自由基特性及形成機制(mechanism),其自由基可從氫自由基轉移或直接氧化形成。安息香縮合反應(benzoin condensation)中,布里斯洛中間體將氫原子轉移至苯甲醛(benzaldehyde)以形成自由基,此自由基可結合形成安息香產物,或排除反應之副產物,使其重新進入催化反應。唯此路徑之反應能障高於傳統非自
由基路徑。此研究亦探討四種布里斯洛中間體之不同電子組態的位能面。其中烯醇鹽(enolate)形式能產生偶極束縛態(dipole-bound state),此為產生自由基之新路徑;拉電子基(electron-withdrawing group)以及立體障礙基(bulky groups)可穩定基態。另外,我們亦研究布里斯洛中間體之碎片化(fragmentation)與重組(rearrangement)。布里斯洛中間體之催化反應可能因其碳氮鍵斷裂而中止,形成碎片。我們證實其反應中可以形成自由基,亦可形成離子。反應趨向之路徑與布里斯洛中間體之羥基的質子化型態有關。碎片化反應亦可視為轉酮醇酶(tran
sketolase)中之噻胺(thiamin)催化反應中之副反應;此研究證實轉酮醇酶透過限制布里斯洛中間體之結構與質子化型態,使其碳氮鍵斷裂需更高之反應能量,進而抑制此副反應。