Intimately bonded 2D materials and responsive polymer brushes for adaptive nanocomposites

To develop next-generation adaptive and functional nanocomposites, it is important to utilize new types of functional nanomaterials such as 2D layered materials (2DLMs), as well as functional polymers such as those with stimuli-responsive properties. However, it is still challenging to integrate 2DL...

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Published inPolymer (Guilford) Vol. 210; p. 123033
Main Authors Liu, Shan, Kasbe, Pratik S., Yang, Muxuan, Shen, Naifu, Duan, Linrui, Mao, Yimin, Xu, Weinan
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.12.2020
Elsevier BV
Subjects
2D materials
Assembly
Brushes
Functional materials
Layered materials
Mechanical properties
Molecular structure
Nanocomposites
Nanomaterials
Nanostructure
Nanotechnology
Neutron scattering
Phase separation
Polymer brush
Polymers
SANS
Stimuli-responsive
Temperature
Two dimensional materials
Polymer brush
Stimuli-responsive
Nanocomposites
SANS
2D materials
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Abstract To develop next-generation adaptive and functional nanocomposites, it is important to utilize new types of functional nanomaterials such as 2D layered materials (2DLMs), as well as functional polymers such as those with stimuli-responsive properties. However, it is still challenging to integrate 2DLMs and responsive polymers in a precise and well-controlled way without any segregation or phase separation. Here, we developed a new method to attach temperature responsive polymers to the surface of 2DLMs through an ultrathin intermediate polydopamine layer. This new surface functionalization strategy enables all the individual 2DLM nanosheets to be uniformly grafted with the responsive polymer brushes, so that nanocomposites with well-ordered internal structure can be fabricated through a simple one-step assembly. Small angle neutron scattering (SANS) was used as the major tool to investigate the molecular structure, as well as intermolecular assembly of the hybrid nanosheets at different conditions. The hybrid ultrathin nanosheets show distinct temperature responsive behaviors, which is also dependent on the thickness and chemistry of the 2DLMs. The nanocomposite membranes based on one-step assembly of the hybrid nanosheets show tunable mechanical properties and well-defined internal structure. [Display omitted] •A general method to integrate responsive polymers and 2D materials is developed.•The surface functionalized 2D nanosheets show unique temperature responsiveness.•SANS measurements reveal molecular structures and interactions of the nanosheets.•Nanocomposites with well-ordered structure can be fabricated by one-step assembly.
AbstractList To develop next-generation adaptive and functional nanocomposites, it is important to utilize new types of functional nanomaterials such as 2D layered materials (2DLMs), as well as functional polymers such as those with stimuli-responsive properties. However, it is still challenging to integrate 2DLMs and responsive polymers in a precise and well-controlled way without any segregation or phase separation. Here, we developed a new method to attach temperature responsive polymers to the surface of 2DLMs through an ultrathin intermediate polydopamine layer. This new surface functionalization strategy enables all the individual 2DLM nanosheets to be uniformly grafted with the responsive polymer brushes, so that nanocomposites with well-ordered internal structure can be fabricated through a simple one-step assembly. Small angle neutron scattering (SANS) was used as the major tool to investigate the molecular structure, as well as intermolecular assembly of the hybrid nanosheets at different conditions. The hybrid ultrathin nanosheets show distinct temperature responsive behaviors, which is also dependent on the thickness and chemistry of the 2DLMs. The nanocomposite membranes based on one-step assembly of the hybrid nanosheets show tunable mechanical properties and well-defined internal structure.
To develop next-generation adaptive and functional nanocomposites, it is important to utilize new types of functional nanomaterials such as 2D layered materials (2DLMs), as well as functional polymers such as those with stimuli-responsive properties. However, it is still challenging to integrate 2DLMs and responsive polymers in a precise and well-controlled way without any segregation or phase separation. Here, we developed a new method to attach temperature responsive polymers to the surface of 2DLMs through an ultrathin intermediate polydopamine layer. This new surface functionalization strategy enables all the individual 2DLM nanosheets to be uniformly grafted with the responsive polymer brushes, so that nanocomposites with well-ordered internal structure can be fabricated through a simple one-step assembly. Small angle neutron scattering (SANS) was used as the major tool to investigate the molecular structure, as well as intermolecular assembly of the hybrid nanosheets at different conditions. The hybrid ultrathin nanosheets show distinct temperature responsive behaviors, which is also dependent on the thickness and chemistry of the 2DLMs. The nanocomposite membranes based on one-step assembly of the hybrid nanosheets show tunable mechanical properties and well-defined internal structure. [Display omitted] •A general method to integrate responsive polymers and 2D materials is developed.•The surface functionalized 2D nanosheets show unique temperature responsiveness.•SANS measurements reveal molecular structures and interactions of the nanosheets.•Nanocomposites with well-ordered structure can be fabricated by one-step assembly.
ArticleNumber 123033
Author Shen, Naifu
Duan, Linrui
Xu, Weinan
Liu, Shan
Kasbe, Pratik S.
Yang, Muxuan
Mao, Yimin
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Snippet To develop next-generation adaptive and functional nanocomposites, it is important to utilize new types of functional nanomaterials such as 2D layered...
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StartPage 123033
SubjectTerms 2D materials
Assembly
Brushes
Functional materials
Layered materials
Mechanical properties
Molecular structure
Nanocomposites
Nanomaterials
Nanostructure
Nanotechnology
Neutron scattering
Phase separation
Polymer brush
Polymers
SANS
Stimuli-responsive
Temperature
Two dimensional materials
Title Intimately bonded 2D materials and responsive polymer brushes for adaptive nanocomposites
URI https://dx.doi.org/10.1016/j.polymer.2020.123033
https://www.proquest.com/docview/2471032784
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