(Keynote) Electromagnetic Field Stimulated MOFs

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

  • Alexander Knebel
  • Donghui Chen
  • Bahram Hosseinimonjezi
  • Jaciara C. C. Santos
  • Engelbert Redel
  • Jürgen Caro
  • Dirk Volkmer
  • Christof Wöll

Research Organisations

External Research Organisations

  • Karlsruhe Institute of Technology (KIT)
  • University of Augsburg
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Details

Original languageEnglish
Title of host publicationMetal Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs) and Porous Hybrid Materials: Characterization, Technology, Bio-Applications, and Emerging Devices 2 - and - Nonvolatile Memories and Artificial Neural Networks
PublisherCurran Associates Inc.
Pages47-53
Number of pages7
ISBN (electronic)9781607689034
ISBN (print)978-160768903-4
Publication statusPublished - 2020
EventPacific Rim Meeting on Electrochemical and Solid State Science 2020, PRiME 200 - Honolulu, United States
Duration: 4 Oct 20209 Oct 2020

Publication series

NameECS Transactions
PublisherElectrochemical Society, Inc.
Number8
Volume98
ISSN (Print)1938-5862

Abstract

Electrochemical deposition is a widely applied technique to produce defined thin films for various applications. For surface anchored metal-organic frameworks (SURMOFs) this technique is rather rarely applied, since not all MOFs form under electrochemical conditions. Some examples showed the deposition of MOF powders, forming a thin film via electrochemical deposition. We herein show a sophisticated way to produce the thin, defined, crystalline SURMOF Tb 2(bhc)(H 2O) 6 films and further characterized them with X-ray diffraction. The Ln-MOF consisting of Tb 3+ and mellitic acids (bhc) shows highly luminescent properties, even in water - without quenching - as shown on photographs, which makes it a great candidate for different kinds of sensorics applications.

ASJC Scopus subject areas

Cite this

(Keynote) Electromagnetic Field Stimulated MOFs. / Knebel, Alexander; Chen, Donghui; Hosseinimonjezi, Bahram et al.
Metal Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs) and Porous Hybrid Materials: Characterization, Technology, Bio-Applications, and Emerging Devices 2 - and - Nonvolatile Memories and Artificial Neural Networks. Curran Associates Inc., 2020. p. 47-53 (ECS Transactions; Vol. 98, No. 8).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Knebel, A, Chen, D, Hosseinimonjezi, B, Santos, JCC, Redel, E, Caro, J, Volkmer, D & Wöll, C 2020, (Keynote) Electromagnetic Field Stimulated MOFs. in Metal Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs) and Porous Hybrid Materials: Characterization, Technology, Bio-Applications, and Emerging Devices 2 - and - Nonvolatile Memories and Artificial Neural Networks. ECS Transactions, no. 8, vol. 98, Curran Associates Inc., pp. 47-53, Pacific Rim Meeting on Electrochemical and Solid State Science 2020, PRiME 200, Honolulu, United States, 4 Oct 2020. https://doi.org/10.1149/09808.0047ecst
Knebel, A., Chen, D., Hosseinimonjezi, B., Santos, J. C. C., Redel, E., Caro, J., Volkmer, D., & Wöll, C. (2020). (Keynote) Electromagnetic Field Stimulated MOFs. In Metal Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs) and Porous Hybrid Materials: Characterization, Technology, Bio-Applications, and Emerging Devices 2 - and - Nonvolatile Memories and Artificial Neural Networks (pp. 47-53). (ECS Transactions; Vol. 98, No. 8). Curran Associates Inc.. https://doi.org/10.1149/09808.0047ecst
Knebel A, Chen D, Hosseinimonjezi B, Santos JCC, Redel E, Caro J et al. (Keynote) Electromagnetic Field Stimulated MOFs. In Metal Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs) and Porous Hybrid Materials: Characterization, Technology, Bio-Applications, and Emerging Devices 2 - and - Nonvolatile Memories and Artificial Neural Networks. Curran Associates Inc. 2020. p. 47-53. (ECS Transactions; 8). doi: 10.1149/09808.0047ecst
Knebel, Alexander ; Chen, Donghui ; Hosseinimonjezi, Bahram et al. / (Keynote) Electromagnetic Field Stimulated MOFs. Metal Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs) and Porous Hybrid Materials: Characterization, Technology, Bio-Applications, and Emerging Devices 2 - and - Nonvolatile Memories and Artificial Neural Networks. Curran Associates Inc., 2020. pp. 47-53 (ECS Transactions; 8).
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abstract = "Electrochemical deposition is a widely applied technique to produce defined thin films for various applications. For surface anchored metal-organic frameworks (SURMOFs) this technique is rather rarely applied, since not all MOFs form under electrochemical conditions. Some examples showed the deposition of MOF powders, forming a thin film via electrochemical deposition. We herein show a sophisticated way to produce the thin, defined, crystalline SURMOF Tb 2(bhc)(H 2O) 6 films and further characterized them with X-ray diffraction. The Ln-MOF consisting of Tb 3+ and mellitic acids (bhc) shows highly luminescent properties, even in water - without quenching - as shown on photographs, which makes it a great candidate for different kinds of sensorics applications. ",
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AU - Knebel, Alexander

AU - Chen, Donghui

AU - Hosseinimonjezi, Bahram

AU - Santos, Jaciara C. C.

AU - Redel, Engelbert

AU - Caro, Jürgen

AU - Volkmer, Dirk

AU - Wöll, Christof

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AB - Electrochemical deposition is a widely applied technique to produce defined thin films for various applications. For surface anchored metal-organic frameworks (SURMOFs) this technique is rather rarely applied, since not all MOFs form under electrochemical conditions. Some examples showed the deposition of MOF powders, forming a thin film via electrochemical deposition. We herein show a sophisticated way to produce the thin, defined, crystalline SURMOF Tb 2(bhc)(H 2O) 6 films and further characterized them with X-ray diffraction. The Ln-MOF consisting of Tb 3+ and mellitic acids (bhc) shows highly luminescent properties, even in water - without quenching - as shown on photographs, which makes it a great candidate for different kinds of sensorics applications.

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