Nanosheets of Nonlayered Aluminum Metal-Organic Frameworks through a Surfactant-Assisted Method

Alexey Pustovarenko; Maarten G. Goesten; Sumit Sachdeva; Meixia Shan; Alla Dikhtiarenko; Damla Keskin; Louis C.P.M. de Smet; Ernst J.R. Sudhölter; Freek Kapteijn; Beatriz Seoane; Jorge Gascon; null More Authors

doi:10.1002/adma.201707234

Nanosheets of Nonlayered Aluminum Metal-Organic Frameworks through a Surfactant-Assisted Method

Alexey Pustovarenko, Maarten G. Goesten, Sumit Sachdeva, Meixia Shan, Alla Dikhtiarenko, Damla Keskin, Louis C.P.M. de Smet, Ernst J.R. Sudhölter, Freek Kapteijn, Beatriz Seoane^*, Jorge Gascon, More Authors

^*Corresponding author for this work

ChemE/Catalysis Engineering

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

67 Citations (Scopus)

Abstract

During the last decade, the synthesis and application of metal-organic framework (MOF) nanosheets has received growing interest, showing unique performances for different technological applications. Despite the potential of this type of nanolamellar materials, the synthetic routes developed so far are restricted to MOFs possessing layered structures, limiting further development in this field. Here, a bottom-up surfactant-assisted synthetic approach is presented for the fabrication of nanosheets of various nonlayered MOFs, broadening the scope of MOF nanosheets application. Surfactant-assisted preorganization of the metallic precursor prior to MOF synthesis enables the manufacture of nonlayered Al-containing MOF lamellae. These MOF nanosheets are shown to exhibit a superior performance over other crystal morphologies for both chemical sensing and gas separation. As revealed by electron microscopy and diffraction, this superior performance arises from the shorter diffusion pathway in the MOF nanosheets, whose 1D channels are oriented along the shortest particle dimension.

Original language	English
Article number	1707234
Number of pages	8
Journal	Advanced Materials
Volume	30
Issue number	26
DOIs	https://doi.org/10.1002/adma.201707234
Publication status	Published - 2018

Keywords

Chemical sensing
Crystal design
Gas separation
Metal-organic framework nanolamellae
Molecular recognition

Access to Document

10.1002/adma.201707234

Cite this

Pustovarenko, A., Goesten, M. G., Sachdeva, S., Shan, M., Dikhtiarenko, A., Keskin, D., de Smet, L. C. P. M., Sudhölter, E. J. R., Kapteijn, F., Seoane, B., Gascon, J., & More Authors (2018). Nanosheets of Nonlayered Aluminum Metal-Organic Frameworks through a Surfactant-Assisted Method. Advanced Materials, 30(26), Article 1707234. https://doi.org/10.1002/adma.201707234

@article{702d3858dbf84f52aea6d2f5cc9c0b5f,

title = "Nanosheets of Nonlayered Aluminum Metal-Organic Frameworks through a Surfactant-Assisted Method",

abstract = "During the last decade, the synthesis and application of metal-organic framework (MOF) nanosheets has received growing interest, showing unique performances for different technological applications. Despite the potential of this type of nanolamellar materials, the synthetic routes developed so far are restricted to MOFs possessing layered structures, limiting further development in this field. Here, a bottom-up surfactant-assisted synthetic approach is presented for the fabrication of nanosheets of various nonlayered MOFs, broadening the scope of MOF nanosheets application. Surfactant-assisted preorganization of the metallic precursor prior to MOF synthesis enables the manufacture of nonlayered Al-containing MOF lamellae. These MOF nanosheets are shown to exhibit a superior performance over other crystal morphologies for both chemical sensing and gas separation. As revealed by electron microscopy and diffraction, this superior performance arises from the shorter diffusion pathway in the MOF nanosheets, whose 1D channels are oriented along the shortest particle dimension.",

keywords = "Chemical sensing, Crystal design, Gas separation, Metal-organic framework nanolamellae, Molecular recognition",

author = "Alexey Pustovarenko and Goesten, {Maarten G.} and Sumit Sachdeva and Meixia Shan and Alla Dikhtiarenko and Damla Keskin and {de Smet}, {Louis C.P.M.} and Sudh{\"o}lter, {Ernst J.R.} and Freek Kapteijn and Beatriz Seoane and Jorge Gascon and {More Authors}",

year = "2018",

doi = "10.1002/adma.201707234",

language = "English",

volume = "30",

journal = "Advanced Materials",

issn = "0935-9648",

publisher = "Wiley",

number = "26",

}

TY - JOUR

T1 - Nanosheets of Nonlayered Aluminum Metal-Organic Frameworks through a Surfactant-Assisted Method

AU - Pustovarenko, Alexey

AU - Goesten, Maarten G.

AU - Sachdeva, Sumit

AU - Shan, Meixia

AU - Dikhtiarenko, Alla

AU - Keskin, Damla

AU - de Smet, Louis C.P.M.

AU - Sudhölter, Ernst J.R.

AU - Kapteijn, Freek

AU - Seoane, Beatriz

AU - Gascon, Jorge

AU - More Authors, null

PY - 2018

Y1 - 2018

N2 - During the last decade, the synthesis and application of metal-organic framework (MOF) nanosheets has received growing interest, showing unique performances for different technological applications. Despite the potential of this type of nanolamellar materials, the synthetic routes developed so far are restricted to MOFs possessing layered structures, limiting further development in this field. Here, a bottom-up surfactant-assisted synthetic approach is presented for the fabrication of nanosheets of various nonlayered MOFs, broadening the scope of MOF nanosheets application. Surfactant-assisted preorganization of the metallic precursor prior to MOF synthesis enables the manufacture of nonlayered Al-containing MOF lamellae. These MOF nanosheets are shown to exhibit a superior performance over other crystal morphologies for both chemical sensing and gas separation. As revealed by electron microscopy and diffraction, this superior performance arises from the shorter diffusion pathway in the MOF nanosheets, whose 1D channels are oriented along the shortest particle dimension.

AB - During the last decade, the synthesis and application of metal-organic framework (MOF) nanosheets has received growing interest, showing unique performances for different technological applications. Despite the potential of this type of nanolamellar materials, the synthetic routes developed so far are restricted to MOFs possessing layered structures, limiting further development in this field. Here, a bottom-up surfactant-assisted synthetic approach is presented for the fabrication of nanosheets of various nonlayered MOFs, broadening the scope of MOF nanosheets application. Surfactant-assisted preorganization of the metallic precursor prior to MOF synthesis enables the manufacture of nonlayered Al-containing MOF lamellae. These MOF nanosheets are shown to exhibit a superior performance over other crystal morphologies for both chemical sensing and gas separation. As revealed by electron microscopy and diffraction, this superior performance arises from the shorter diffusion pathway in the MOF nanosheets, whose 1D channels are oriented along the shortest particle dimension.

KW - Chemical sensing

KW - Crystal design

KW - Gas separation

KW - Metal-organic framework nanolamellae

KW - Molecular recognition

UR - http://www.scopus.com/inward/record.url?scp=85047548063&partnerID=8YFLogxK

U2 - 10.1002/adma.201707234

DO - 10.1002/adma.201707234

M3 - Article

AN - SCOPUS:85047548063

SN - 0935-9648

VL - 30

JO - Advanced Materials

JF - Advanced Materials

IS - 26

M1 - 1707234

ER -

Nanosheets of Nonlayered Aluminum Metal-Organic Frameworks through a Surfactant-Assisted Method

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this