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Function Spaces, 2

為了解決suzuki japan的問題，作者Pick, Lubos,Musil, Vit,Kufner, Alois 這樣論述：

The series is devoted to the publication of high-level monographs which cover the whole spectrum of current nonlinear analysis and applications in various fields, such as optimization, control theory, systems theory, mechanics, engineering, and other sciences. One of its main objectives is to mak

e available to the professional community expositions of results and foundations of methods that play an important role in both the theory and applications of nonlinear analysis. Contributions which are on the borderline of nonlinear analysis and related fields and which stimulate further research a

t the crossroads of these areas are particularly welcome. Editor-in-ChiefJürgen Appell, Würzburg, Germany Honorary and Advisory EditorsCatherine Bandle, Basel, SwitzerlandAvner Friedman, Columbus, Ohio, USAManuel del Pino, Bath, UK, and Santiago, ChileMikio Kato, Nagano, JapanWojciech Kryszewski, To

ruń, PolandVicenţiu D. Rădulescu, Kraków, PolandSimeon Reich, Haifa, Israel Please submit book proposals to Jürgen Appell. Titles in planning includeIreneo Peral Alonso and Fernando Soria, Elliptic and Parabolic Equations Involving the Hardy-Leray Potential (2020)Cyril Tintarev, Profile Decompositio

ns and Cocompactness: Functional-Analytic Theory of Concentration Compactness (2020)Takashi Suzuki, Semilinear Elliptic Equations: Classical and Modern Theories (2021)

suzuki japan進入發燒排行的影片

透過基於基因本體之整合性分析識別卵巢上皮性腫瘤發病機轉的失調基因功能體

為了解決suzuki japan的問題，作者蘇國銘 這樣論述：

上皮性卵巢癌（EOCs）在晚期或復發的婦科惡性腫瘤中常是致命的和頑固的，其中漿液性佔絕大多數而卵巢清亮細胞癌（OCCC）是僅次於漿液性上皮性卵巢癌的第二常見的上皮性卵巢癌。即便經過腫瘤減積手術後加上化學藥物治療後仍有不少的患者有著較差的預後或是復發，故整體而言，對於卵巢癌的治療仍是一個相當大的挑戰。此外，邊緣性卵巢腫瘤(BOT)，包括漿液性 BOT與黏液性BOT，是屬於介於良性與惡性之間的卵巢疾病，雖然大部分的預後不差但是也有與卵巢癌不同的組織病理學特性。本研究使用以基因本體(GO)為基礎加上機器學習輔助運算的綜合分析去探討卵巢清亮細胞癌以及漿液性卵巢腫瘤包含漿液性邊緣性卵巢腫瘤與漿液性卵巢

癌的GEO資料庫中失調的基因體、功能途徑，藉以去識別重要的差異表達基因(DEG)。首先在卵巢清亮細胞癌的整合性分析中，發現無論是早期抑或是晚期，與免疫功能相關尤其是活化補體系統的替代途徑的功能失調在腫瘤發生佔有相當重要的關聯性，而補體C3與補體C5也影響了疾病無惡化存活期(Progression-free survival, PFS)和整體存活率(Overall survival, OS)且免疫染色結果是有意義的。而在漿液性卵巢腫瘤的分析中發現，SRC基因和功能失調的芳烴受體(AHR)結合路徑(Binding pathway)確實影響PFS和OS，而且與上皮細胞間質轉化(Epithelial-

mesenchymal transition, EMT)相關的鋅指蛋白SNAI2在腫瘤發生過程中有重要角色，並顯示出從漿液性 BOT 到卵巢癌有著逐漸上升的影響趨勢。未來，標靶治療可以專注於這些有意義的生物標誌並結合精確監測，以提高治療效果和患者存活率。

Function Spaces, 1

為了解決suzuki japan的問題，作者Pick, Lubos,Musil, Vit,Kufner, Alois 這樣論述：

The series is devoted to the publication of high-level monographs which cover the whole spectrum of current nonlinear analysis and applications in various fields, such as optimization, control theory, systems theory, mechanics, engineering, and other sciences. One of its main objectives is to mak

e available to the professional community expositions of results and foundations of methods that play an important role in both the theory and applications of nonlinear analysis. Contributions which are on the borderline of nonlinear analysis and related fields and which stimulate further research a

t the crossroads of these areas are particularly welcome. Editor-in-ChiefJürgen Appell, Würzburg, Germany Honorary and Advisory EditorsCatherine Bandle, Basel, SwitzerlandAvner Friedman, Columbus, Ohio, USAManuel del Pino, Bath, UK, and Santiago, ChileMikio Kato, Nagano, JapanWojciech Kryszewski, To

ruń, PolandVicenţiu D. Rădulescu, Kraków, PolandSimeon Reich, Haifa, Israel Please submit book proposals to Jürgen Appell. Titles in planning includeIreneo Peral Alonso and Fernando Soria, Elliptic and Parabolic Equations Involving the Hardy-Leray Potential (2020)Cyril Tintarev, Profile Decompositio

ns and Cocompactness: Functional-Analytic Theory of Concentration Compactness (2020)Takashi Suzuki, Semilinear Elliptic Equations: Classical and Modern Theories (2021)

擬有序中孔高熵及有序中孔擬高熵 材料之開發

為了解決suzuki japan的問題，作者陳鵬仁 這樣論述：

高熵材料因其性質多元而在材料應用中具有極大的潛力，截至目前為止，尚未發現有文獻製備有序中孔高熵氧化物，本研究致力於開發有序中孔高熵氧化物之製程，分別透過軟模板法與硬模板法合成高熵中孔氧化物。其中，軟模板法源自SBA-15之製程，並探討氧化矽源、鹽酸、鹼之種類及其滴定方法對產物的影響；硬模板法則以CMK-3為模板合成有序中孔高熵氧化物，並探討前驅物/硬模板比例、前驅物/氨水比例、溶劑種類、鹼的種類、不同手法(尿素內調法、氨水氣化法、氫氧化鈉潮解法、尿素水解氣化法)進行之中和反應、模板表面改質，以及鍛燒溫度對孔洞結構的影響。在廣泛地嘗試各種極端條件後，雖然仍無法合成理想的有序孔洞高熵氧化物，原因

可能是由於高熵氧化物本身以及中孔材料之骨架本身皆具備大量的晶格應變，導致其結構容易崩塌。具體來講，本研究以軟模板法成功合成具有高比表面積的有序中孔擬高熵氧化物(比表面積：369 m2/g；平均孔徑：7.7 nm)；而透過硬模板法中也成功合成了擬有序中孔高熵氧化物(比表面積：90 m2/g；平均孔徑：~10.0 nm)。在光催化還原CO2的應用中發現96小時候可以達到687.07μmol∙CO/g以及88.65μmol∙CH4/g； 水解製氫24小時可達2.16 % g-cat-1。