Molecule-Induced Conformational Change in Boron Nitride Nanosheets with Enhanced Surface Adsorption

Qiran Cai; Aijun Du; Guoping Gao; Srikanth Mateti; Bruce C.C. Cowie; Dong Qian; Shuang Zhang; Yuerui Lu; Lan Fu; Takashi Taniguchi; Shaoming Huang; Ying Chen; Rodney S. Ruoff; Lu Hua Li

doi:10.1002/adfm.201603160

Molecule-Induced Conformational Change in Boron Nitride Nanosheets with Enhanced Surface Adsorption

Qiran Cai
, Aijun Du
, Guoping Gao
, Srikanth Mateti
, Bruce C.C. Cowie
, Dong Qian
, Shuang Zhang
, Yuerui Lu
, Lan Fu
, Takashi Taniguchi
, Shaoming Huang
, Ying Chen
, Rodney S. Ruoff
, Lu Hua Li

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

62 Scopus citations

Abstract

Surface interaction is extremely important to both fundamental research and practical application. Physisorption can induce shape and structural distortion (i.e., conformational changes) in macromolecular and biomolecular adsorbates, but such phenomena have rarely been observed on adsorbents. Here, it is demonstrated theoretically and experimentally that atomically thin boron nitride (BN) nanosheets as an adsorbent experience conformational changes upon surface adsorption of molecules, increasing adsorption energy and efficiency. The study not only provides new perspectives on the strong adsorption capability of BN nanosheets and many other two-dimensional (2D) nanomaterials but also opens up possibilities for many novel applications. For example, it is demonstrated that BN nanosheets with the same surface area as bulk hexagonal BN particles are more effective in purification and sensing.

Original language	English
Pages (from-to)	8202-8210
Number of pages	9
Journal	Advanced Functional Materials
Volume	26
Issue number	45
DOIs	https://doi.org/10.1002/adfm.201603160
State	Published - 6 Dec 2016
Externally published	Yes

Keywords

2D nanomaterials
boron nitride nanosheets
conformational change
surface adsorption

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10.1002/adfm.201603160

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title = "Molecule-Induced Conformational Change in Boron Nitride Nanosheets with Enhanced Surface Adsorption",

abstract = "Surface interaction is extremely important to both fundamental research and practical application. Physisorption can induce shape and structural distortion (i.e., conformational changes) in macromolecular and biomolecular adsorbates, but such phenomena have rarely been observed on adsorbents. Here, it is demonstrated theoretically and experimentally that atomically thin boron nitride (BN) nanosheets as an adsorbent experience conformational changes upon surface adsorption of molecules, increasing adsorption energy and efficiency. The study not only provides new perspectives on the strong adsorption capability of BN nanosheets and many other two-dimensional (2D) nanomaterials but also opens up possibilities for many novel applications. For example, it is demonstrated that BN nanosheets with the same surface area as bulk hexagonal BN particles are more effective in purification and sensing.",

keywords = "2D nanomaterials, boron nitride nanosheets, conformational change, surface adsorption",

author = "Qiran Cai and Aijun Du and Guoping Gao and Srikanth Mateti and Cowie, \{Bruce C.C.\} and Dong Qian and Shuang Zhang and Yuerui Lu and Lan Fu and Takashi Taniguchi and Shaoming Huang and Ying Chen and Ruoff, \{Rodney S.\} and Li, \{Lu Hua\}",

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year = "2016",

month = dec,

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doi = "10.1002/adfm.201603160",

language = "英语",

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journal = "Advanced Functional Materials",

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T1 - Molecule-Induced Conformational Change in Boron Nitride Nanosheets with Enhanced Surface Adsorption

AU - Cai, Qiran

AU - Du, Aijun

AU - Gao, Guoping

AU - Mateti, Srikanth

AU - Cowie, Bruce C.C.

AU - Qian, Dong

AU - Zhang, Shuang

AU - Lu, Yuerui

AU - Fu, Lan

AU - Taniguchi, Takashi

AU - Huang, Shaoming

AU - Chen, Ying

AU - Ruoff, Rodney S.

AU - Li, Lu Hua

PY - 2016/12/6

Y1 - 2016/12/6

N2 - Surface interaction is extremely important to both fundamental research and practical application. Physisorption can induce shape and structural distortion (i.e., conformational changes) in macromolecular and biomolecular adsorbates, but such phenomena have rarely been observed on adsorbents. Here, it is demonstrated theoretically and experimentally that atomically thin boron nitride (BN) nanosheets as an adsorbent experience conformational changes upon surface adsorption of molecules, increasing adsorption energy and efficiency. The study not only provides new perspectives on the strong adsorption capability of BN nanosheets and many other two-dimensional (2D) nanomaterials but also opens up possibilities for many novel applications. For example, it is demonstrated that BN nanosheets with the same surface area as bulk hexagonal BN particles are more effective in purification and sensing.

AB - Surface interaction is extremely important to both fundamental research and practical application. Physisorption can induce shape and structural distortion (i.e., conformational changes) in macromolecular and biomolecular adsorbates, but such phenomena have rarely been observed on adsorbents. Here, it is demonstrated theoretically and experimentally that atomically thin boron nitride (BN) nanosheets as an adsorbent experience conformational changes upon surface adsorption of molecules, increasing adsorption energy and efficiency. The study not only provides new perspectives on the strong adsorption capability of BN nanosheets and many other two-dimensional (2D) nanomaterials but also opens up possibilities for many novel applications. For example, it is demonstrated that BN nanosheets with the same surface area as bulk hexagonal BN particles are more effective in purification and sensing.

KW - 2D nanomaterials

KW - boron nitride nanosheets

KW - conformational change

KW - surface adsorption

UR - https://www.scopus.com/pages/publications/84983681035

U2 - 10.1002/adfm.201603160

DO - 10.1002/adfm.201603160

M3 - 文章

AN - SCOPUS:84983681035

SN - 1616-301X

VL - 26

SP - 8202

EP - 8210

JO - Advanced Functional Materials

JF - Advanced Functional Materials

IS - 45

ER -

Molecule-Induced Conformational Change in Boron Nitride Nanosheets with Enhanced Surface Adsorption

Abstract

Keywords

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