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200 10$aMetallic Butterfly Wing Scales$b[electronic resource] $eSuperstructures with High Surface-Enhancement Properties for Optical Applications /$fby Jiajun Gu, Di Zhang, Yongwen Tan
205   $a1st ed. 2015.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2015.
215   $a1 online resource (99 p.)
225 1 $aSpringerBriefs in Materials,$x2192-1091
300   $aDescription based upon print version of record.
311   $a3-319-12534-6 
320   $aIncludes bibliographical references and index.
327   $aBackground -- Towards Metallic Butterfly Wing Scales -- Metal Scale Replicas Prepared via Electroless Deposition -- SERS Performance of Au Scale Replicas -- SERS Mechanisms of Metal Scale Replicas -- Conclusions and Perspectives.
330   $aThis book presents a method for replicating natural butterfly wing scales using a variety of metals for state-of-the-art applications requiring high surface-enhancement properties. During the past decade, three dimensional (3D) sub-micrometer structures have attracted considerable attention for optical applications. These 3D subwavelength metallic structures are, however, difficult to prepare. By contrast, the 3D superstructures of butterfly wing scales, with more than 175 000 morphologies, are efficiently engineered by nature. Natural butterfly wing scales feature 3D sub-micrometer structures that are superior to many human designs in terms of structural complexity, reproducibility, and cost. Such natural wealth offers a versatile chemical route via the replication of these structures into functional metals. A single versatile chemical route can be used to produce butterfly scales in seven different metals. These synthesized structures have the potential for catalytic (Au, Pt, Pd), thermal (Ag, Au, Cu), electrical (Au, Cu, Ag), magnetic (Co, Ni), and optical (Au, Ag, Cu) applications. Plasmon-active Au, Cu, Ag butterfly scales have exhibited excellent properties in surface-enhanced Raman scattering (SERS). The Au scales as SERS substrates have ten times the analyte detection sensitivity and are one-tenth the cost of their human-designed commercial counterparts (KlariteTM). Preliminary mechanisms of these surface-enhancement phenomena are also reviewed.
410  0$aSpringerBriefs in Materials,$x2192-1091
606   $aOptical materials
606   $aElectronic materials
606   $aLasers
606   $aPhotonics
606   $aBiotechnology
606   $aNanotechnology
606   $aMaterials science
606   $aMaterials?Surfaces
606   $aThin films
606   $aOptical and Electronic Materials$3https://scigraph.springernature.com/ontologies/product-market-codes/Z12000
606   $aOptics, Lasers, Photonics, Optical Devices$3https://scigraph.springernature.com/ontologies/product-market-codes/P31030
606   $aMicroengineering$3https://scigraph.springernature.com/ontologies/product-market-codes/C12040
606   $aNanotechnology and Microengineering$3https://scigraph.springernature.com/ontologies/product-market-codes/T18000
606   $aCharacterization and Evaluation of Materials$3https://scigraph.springernature.com/ontologies/product-market-codes/Z17000
606   $aSurfaces and Interfaces, Thin Films$3https://scigraph.springernature.com/ontologies/product-market-codes/Z19000
615  0$aOptical materials.
615  0$aElectronic materials.
615  0$aLasers.
615  0$aPhotonics.
615  0$aBiotechnology.
615  0$aNanotechnology.
615  0$aMaterials science.
615  0$aMaterials?Surfaces.
615  0$aThin films.
615 14$aOptical and Electronic Materials.
615 24$aOptics, Lasers, Photonics, Optical Devices.
615 24$aMicroengineering.
615 24$aNanotechnology and Microengineering.
615 24$aCharacterization and Evaluation of Materials.
615 24$aSurfaces and Interfaces, Thin Films.
676   $a620.11
676   $a620.11295
676   $a620.11297
676   $a620.44
700   $aGu$b Jiajun$4aut$4http://id.loc.gov/vocabulary/relators/aut$0994065
702   $aZhang$b Di$4aut$4http://id.loc.gov/vocabulary/relators/aut
702   $aTan$b Yongwen$4aut$4http://id.loc.gov/vocabulary/relators/aut
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910298622603321
996   $aMetallic Butterfly Wing Scales$92276641
997   $aUNINA