In-plane aligned assemblies of 1D-nanoobjects : recent approaches and applications
One-dimensional (1D) nanoobjects have strongly anisotropic physical properties which are averaged out and cannot be exploited in disordered systems. The goal of the present review is to describe the current methods for preparing macroscopic composite films in which the long axis of individual 1D-nan...
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sg-ntu-dr.10356-1384142023-07-14T15:56:21Z In-plane aligned assemblies of 1D-nanoobjects : recent approaches and applications Hu, Hebing Wang, Shancheng Feng, Xueling Pauly, Matthias Decher, Gero Long, Yi School of Materials Science & Engineering Singapore-HUJ Alliance for Research and Enterprise Nanomaterials for Energy and Energy-Water Nexus Campus for Research Excellence and Technological Enterprise Engineering::Materials One-dimensional Nanoobjects Alignment One-dimensional (1D) nanoobjects have strongly anisotropic physical properties which are averaged out and cannot be exploited in disordered systems. The goal of the present review is to describe the current methods for preparing macroscopic composite films in which the long axis of individual 1D-nanoobjects is more or less parallel to the x,y-plane of the substrate as well as to each other (alignment direction). Such structures are generally described as in-plane anisotropic and many of their physical properties show minima or maxima parallel to the alignment direction. Optical polarizers are a typical class of such materials, but anisotropic materials properties can enhance the performance of devices and materials over many length scales in various disciplines of materials science including electronic devices, environmental sensors, energy saving and energy generation applications, plasmonic devices, Surface-Enhanced Raman Scattering (SERS) and biological applications. The reviewed alignment methods fall into two categories: techniques in which all nanoobjects remain in the x,y-plane and the in-plane densities and alignment are controlled; and techniques allowing building complex architectures in which each stratum of multilayered or stacked films may differ in chemical nature or alignment direction or both. This review serves a purpose to provide a platform to inspire new alignment approaches with improved assembly quality and upscaling potential and new applications with enhanced performance by alignment. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) Accepted version 2020-05-06T01:15:53Z 2020-05-06T01:15:53Z 2019 Journal Article Hu, H., Wang, S., Feng, X., Pauly, M., Decher, G., & Long, Y. (2020). In-plane aligned assemblies of 1D-nanoobjects: recent approaches and applications. Chemical Society Reviews, 49, 509-553. doi:10.1039/C9CS00382G 0306-0012 https://hdl.handle.net/10356/138414 10.1039/c9cs00382g 49 509 553 en Chemical Society Reviews https://doi.org/10.21979/N9/MKUVTG © 2020 The Royal Society of Chemistry. All rights reserved. This paper was published in Chemical Society Reviews and is made available with permission of The Royal Society of Chemistry. application/pdf |
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Engineering::Materials One-dimensional Nanoobjects Alignment |
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Engineering::Materials One-dimensional Nanoobjects Alignment Hu, Hebing Wang, Shancheng Feng, Xueling Pauly, Matthias Decher, Gero Long, Yi In-plane aligned assemblies of 1D-nanoobjects : recent approaches and applications |
| description |
One-dimensional (1D) nanoobjects have strongly anisotropic physical properties which are averaged out and cannot be exploited in disordered systems. The goal of the present review is to describe the current methods for preparing macroscopic composite films in which the long axis of individual 1D-nanoobjects is more or less parallel to the x,y-plane of the substrate as well as to each other (alignment direction). Such structures are generally described as in-plane anisotropic and many of their physical properties show minima or maxima parallel to the alignment direction. Optical polarizers are a typical class of such materials, but anisotropic materials properties can enhance the performance of devices and materials over many length scales in various disciplines of materials science including electronic devices, environmental sensors, energy saving and energy generation applications, plasmonic devices, Surface-Enhanced Raman Scattering (SERS) and biological applications. The reviewed alignment methods fall into two categories: techniques in which all nanoobjects remain in the x,y-plane and the in-plane densities and alignment are controlled; and techniques allowing building complex architectures in which each stratum of multilayered or stacked films may differ in chemical nature or alignment direction or both. This review serves a purpose to provide a platform to inspire new alignment approaches with improved assembly quality and upscaling potential and new applications with enhanced performance by alignment. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Hu, Hebing Wang, Shancheng Feng, Xueling Pauly, Matthias Decher, Gero Long, Yi |
| format |
Article |
| author |
Hu, Hebing Wang, Shancheng Feng, Xueling Pauly, Matthias Decher, Gero Long, Yi |
| author_sort |
Hu, Hebing |
| title |
In-plane aligned assemblies of 1D-nanoobjects : recent approaches and applications |
| title_short |
In-plane aligned assemblies of 1D-nanoobjects : recent approaches and applications |
| title_full |
In-plane aligned assemblies of 1D-nanoobjects : recent approaches and applications |
| title_fullStr |
In-plane aligned assemblies of 1D-nanoobjects : recent approaches and applications |
| title_full_unstemmed |
In-plane aligned assemblies of 1D-nanoobjects : recent approaches and applications |
| title_sort |
in-plane aligned assemblies of 1d-nanoobjects : recent approaches and applications |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/138414 https://doi.org/10.21979/N9/MKUVTG |
| _version_ |
1772828845298155520 |