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Title
Japanese:Direct In Situ Observation of the Early-Stage Disorder窶徹rder Evolution of Perpendicular Lamellae in Thermally Annealed High-マ� Block Copolymer Thin Films 
English:Direct In Situ Observation of the Early-Stage Disorder窶徹rder Evolution of Perpendicular Lamellae in Thermally Annealed High-マ� Block Copolymer Thin Films 
Author
Japanese: Alvin Chandra, Ryuichi Nakatani, Takumi Uchiyama, Yuriko Seino, Hironobu Sato, Yusuke Kasahara, Tsukasa Azuma, Teruaki Hayakawa.  
English: Alvin Chandra, Ryuichi Nakatani, Takumi Uchiyama, Yuriko Seino, Hironobu Sato, Yusuke Kasahara, Tsukasa Azuma, Teruaki Hayakawa.  
Language English 
Journal/Book name
Japanese:Advanced Materials Interfaces 
English:Advanced Materials Interfaces 
Volume, Number, Page Vol. 6    No. 11    pp. 1801401
Published date Apr. 12, 2019 
Publisher
Japanese:John Wiley & Sons, Ltd 
English:John Wiley & Sons, Ltd 
Conference name
Japanese: 
English: 
Conference site
Japanese: 
English: 
Official URL https://doi.org/10.1002/admi.201801401
 
DOI https://doi.org/10.1002/admi.201801401
Abstract Abstract The evolution of well-ordered, sub-10 nm, perpendicular lamellae from a disordered state is documented directly using in situ atomic force microscopy, cross-sectional scanning electron microscopy, and grazing-incidence small angle X-ray scattering. Since block copolymer (BCP) self-assembly occurs on extremely fast time scales, directly imaging the growth of perpendicular lamellae remains challenging. The lack of understanding behind early-stage self-assembly and how metastable defects can affect the kinetic behavior near thermodynamic equilibrium prevents the realization of defect-free thin films. By characterizing the evolution of nanostructures using a high-?, perpendicular lamella-forming BCP, poly(polyhedral oligomeric silsesquioxane)-block-poly(2,2,2-trifluoroethyl methacrylate), over a wide temperature range, three stages in the evolution of perpendicular lamellae, characterized mainly by the root-mean-squared (rms) roughness, is observed. At temperatures lower than the glass transition temperatures (Tg), the film retains a smooth, disordered surface (rms roughness = 0.352 ツア 0.006 nm), characteristic of spin-coated films. Near the Tg, spinodal decomposition and the appearance of lamellae are detected as the rms roughness increases at 70 ツーC, before peaking at 82 ツーC at 0.83 nm, and decaying rapidly with increasing temperatures. Above the Tg, the rms roughness returns to 0.35 ツア 0.03 nm, as defects are observed to annihilate sequentially.

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