Nanoscopic morphologies in block copolymer nanorods as templates for atomic-layer deposition of semiconductors

Yong Wang; Yong Qin; Andreas Berger; Eric Yau; Changcheng He; Lianbing Zhang; Ulrich Gösele; Mato Knez; Martin Steinhart

doi:10.1002/adma.200900136

Nanoscopic morphologies in block copolymer nanorods as templates for atomic-layer deposition of semiconductors

Yong Wang, Yong Qin, Andreas Berger, Eric Yau, Changcheng He, Lianbing Zhang, Ulrich Gösele, Mato Knez, Martin Steinhart

College of Chemical Engineering

Research output: Contribution to journal › Article › peer-review

102 Scopus citations

Abstract

The fabrication of hierarchical one-dimensional semiconductor nanostructures containing structural motifs, such as helices and stacked doughnuts that are similar to unconventional, confinement-induced nanoscopic domain structures of block copolymers (BCP) melts self-assembled in cylindrical nanopores of anodic aluminum oxide (AAO) with appropriate pore diameters, was reported. The mesoporous PS-b-P2VP nanorods were employed as templates for atomic-layer deposition (ALD) of zinc oxide and three morphology types were found in a PS-b-P2VP nanorod with diameter 170 nm. The pitch of the P2VP single helices and the spacing between the circular-cylindrical P2VP doughnuts is found to be approximately 43 nm. Extraction of the PS-b-P2VP with dimethylformamide yields one-dimensional ZnO characterized by hierarchical architectures, which consist of outer ZnO shells encasing tubular ZnO helices and stacked doughnuts as straight ZnO tubes.

Original language	English
Pages (from-to)	2763-2766
Number of pages	4
Journal	Advanced Materials
Volume	21
Issue number	27
DOIs	https://doi.org/10.1002/adma.200900136
State	Published - 20 Jul 2009

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abstract = "The fabrication of hierarchical one-dimensional semiconductor nanostructures containing structural motifs, such as helices and stacked doughnuts that are similar to unconventional, confinement-induced nanoscopic domain structures of block copolymers (BCP) melts self-assembled in cylindrical nanopores of anodic aluminum oxide (AAO) with appropriate pore diameters, was reported. The mesoporous PS-b-P2VP nanorods were employed as templates for atomic-layer deposition (ALD) of zinc oxide and three morphology types were found in a PS-b-P2VP nanorod with diameter 170 nm. The pitch of the P2VP single helices and the spacing between the circular-cylindrical P2VP doughnuts is found to be approximately 43 nm. Extraction of the PS-b-P2VP with dimethylformamide yields one-dimensional ZnO characterized by hierarchical architectures, which consist of outer ZnO shells encasing tubular ZnO helices and stacked doughnuts as straight ZnO tubes.",

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AU - Wang, Yong

AU - Qin, Yong

AU - Berger, Andreas

AU - Yau, Eric

AU - He, Changcheng

AU - Zhang, Lianbing

AU - Gösele, Ulrich

AU - Knez, Mato

AU - Steinhart, Martin

PY - 2009/7/20

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N2 - The fabrication of hierarchical one-dimensional semiconductor nanostructures containing structural motifs, such as helices and stacked doughnuts that are similar to unconventional, confinement-induced nanoscopic domain structures of block copolymers (BCP) melts self-assembled in cylindrical nanopores of anodic aluminum oxide (AAO) with appropriate pore diameters, was reported. The mesoporous PS-b-P2VP nanorods were employed as templates for atomic-layer deposition (ALD) of zinc oxide and three morphology types were found in a PS-b-P2VP nanorod with diameter 170 nm. The pitch of the P2VP single helices and the spacing between the circular-cylindrical P2VP doughnuts is found to be approximately 43 nm. Extraction of the PS-b-P2VP with dimethylformamide yields one-dimensional ZnO characterized by hierarchical architectures, which consist of outer ZnO shells encasing tubular ZnO helices and stacked doughnuts as straight ZnO tubes.

AB - The fabrication of hierarchical one-dimensional semiconductor nanostructures containing structural motifs, such as helices and stacked doughnuts that are similar to unconventional, confinement-induced nanoscopic domain structures of block copolymers (BCP) melts self-assembled in cylindrical nanopores of anodic aluminum oxide (AAO) with appropriate pore diameters, was reported. The mesoporous PS-b-P2VP nanorods were employed as templates for atomic-layer deposition (ALD) of zinc oxide and three morphology types were found in a PS-b-P2VP nanorod with diameter 170 nm. The pitch of the P2VP single helices and the spacing between the circular-cylindrical P2VP doughnuts is found to be approximately 43 nm. Extraction of the PS-b-P2VP with dimethylformamide yields one-dimensional ZnO characterized by hierarchical architectures, which consist of outer ZnO shells encasing tubular ZnO helices and stacked doughnuts as straight ZnO tubes.

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Nanoscopic morphologies in block copolymer nanorods as templates for atomic-layer deposition of semiconductors

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