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Titlebook: Metallic Butterfly Wing Scales; Superstructures with Jiajun Gu,Di Zhang,Yongwen Tan Book 2015 Jiajun Gu, Di Zhang, and Yongwen Tan 2015 3D

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發(fā)表于 2025-3-21 16:05:01 | 只看該作者 |倒序?yàn)g覽 |閱讀模式
書(shū)目名稱Metallic Butterfly Wing Scales
副標(biāo)題Superstructures with
編輯Jiajun Gu,Di Zhang,Yongwen Tan
視頻videohttp://file.papertrans.cn/632/631539/631539.mp4
概述Presents a versatile method for replicating butterfly superstructures in seven metals (Ag, Au, Co, Cu, Ni, Pd, Pt) with photonic, magnetic, electronic, thermal, and catalytic applications.Reveals the
叢書(shū)名稱SpringerBriefs in Materials
圖書(shū)封面Titlebook: Metallic Butterfly Wing Scales; Superstructures with Jiajun Gu,Di Zhang,Yongwen Tan Book 2015 Jiajun Gu, Di Zhang, and Yongwen Tan 2015 3D
描述.This book presents a method for replicating natural butterfly wing scales using a variety of metals for state-of-the-art applications requiring high surface-enhancement properties. During the past decade, three dimensional (3D) sub-micrometer structures have attracted considerable attention for optical applications. These 3D subwavelength metallic structures are, however, difficult to prepare. By contrast, the 3D superstructures of butterfly wing scales, with more than 175 000 morphologies, are efficiently engineered by nature. Natural butterfly wing scales feature 3D sub-micrometer structures that are superior to many human designs in terms of structural complexity, reproducibility, and cost. Such natural wealth offers a versatile chemical route via the replication of these structures into functional metals..A single versatile chemical route can be used to produce butterfly scales in seven different metals. These synthesized structures have the potential for catalytic (Au, Pt, Pd), thermal (Ag, Au, Cu), electrical (Au, Cu, Ag), magnetic (Co, Ni), and optical (Au, Ag, Cu) applications. Plasmon-active Au, Cu, Ag butterfly scales have exhibited excellent properties in surface-enhanc
出版日期Book 2015
關(guān)鍵詞3D Sub-micrometer Structures; Bio-inspired Materials; Butterfly Scales Superstructures; MEF; Metal-enhan
版次1
doihttps://doi.org/10.1007/978-3-319-12535-0
isbn_softcover978-3-319-12534-3
isbn_ebook978-3-319-12535-0Series ISSN 2192-1091 Series E-ISSN 2192-1105
issn_series 2192-1091
copyrightJiajun Gu, Di Zhang, and Yongwen Tan 2015
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發(fā)表于 2025-3-21 23:45:46 | 只看該作者
2192-1091 Pt, Pd), thermal (Ag, Au, Cu), electrical (Au, Cu, Ag), magnetic (Co, Ni), and optical (Au, Ag, Cu) applications. Plasmon-active Au, Cu, Ag butterfly scales have exhibited excellent properties in surface-enhanc978-3-319-12534-3978-3-319-12535-0Series ISSN 2192-1091 Series E-ISSN 2192-1105
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發(fā)表于 2025-3-22 00:43:12 | 只看該作者
is a challenging endeavor due to their length, sequence similarity across family members, sensitivity to disintegration, and low quantity in total samples. New advances in nanophotonics have provided novel options for fabrication of quantum dots (QDs)-based biosensing devices capable of detecting a
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發(fā)表于 2025-3-22 16:52:38 | 只看該作者
Jiajun Gu,Di Zhang,Yongwen Tan cycle regulatory proteins in early development has been extensively characterized in lower and higher eukaryotes in the last decade; this research has uncovered one of the best-understood mRNA-specific translational regulators, cytoplasmic polyadenylation element binding protein (CPEB), the major s
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發(fā)表于 2025-3-23 00:15:50 | 只看該作者
Jiajun Gu,Di Zhang,Yongwen Tantified so far. It is generally believed that the catalytic activity of RNase P derived from other organisms than bacteria is also conferred by the RNA, however, this still remains to be demonstrated. The protein subunit of RNase P is essential for activity . and reduces its dependence on divalent me
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發(fā)表于 2025-3-23 02:30:36 | 只看該作者
Jiajun Gu,Di Zhang,Yongwen Tany is revealed by the messenger RNA of the expressed genes. Numerous chemical and computational methods exist to separate families of RNA prior to conducting further downstream analyses, primarily suitable for isolating mRNA or rRNA from a total RNA sample. In this chapter, we demonstrate a computati
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