Replication data for: "Ionothermal Synthesis of Imide‐Linked Covalent Organic Frameworks" (doi:10.18419/darus-1837)

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Document Description

Citation

Title:

Replication data for: "Ionothermal Synthesis of Imide‐Linked Covalent Organic Frameworks"

Identification Number:

doi:10.18419/darus-1837

Distributor:

DaRUS

Date of Distribution:

2022-04-01

Version:

1

Bibliographic Citation:

Maschita, Johannes; Banerjee, Tanmay; Savasci, Gökcen; Haase, Frederik; Ochsenfeld, Christian; Lotsch, Bettina V., 2022, "Replication data for: "Ionothermal Synthesis of Imide‐Linked Covalent Organic Frameworks"", https://doi.org/10.18419/darus-1837, DaRUS, V1

Study Description

Citation

Title:

Replication data for: "Ionothermal Synthesis of Imide‐Linked Covalent Organic Frameworks"

Identification Number:

doi:10.18419/darus-1837

Authoring Entity:

Maschita, Johannes (Max Planck Institute for Solid State Research)

Banerjee, Tanmay (Max Planck Institute for Solid State Research)

Savasci, Gökcen (Max Planck Institute for Solid State Research)

Haase, Frederik (Max Planck Institute for Solid State Research)

Ochsenfeld, Christian (Department of Chemistry, University of Munich (LMU))

Lotsch, Bettina V. (Max Planck Institute for Solid State Research)

Other identifications and acknowledgements:

Maschita, Johannes

Grant Number:

03XP0030C - StickLiS

Grant Number:

info:eu-repo/grantAgreement/EC/H2020/639233

Grant Number:

390776260 - EXC 2089

Grant Number:

358283783 - SFB 1333

Distributor:

DaRUS

Access Authority:

Lotsch, Bettina

Depositor:

Maschita, Johannes

Date of Deposit:

2021-05-06

Holdings Information:

https://doi.org/10.18419/darus-1837

Study Scope

Keywords:

Chemistry, Covalent Organic Framework, Ionothermal Synthesis, Eutectic Salt Mixtures, Zinc Chloride

Abstract:

Covalent organic frameworks (COFs) are an extensively studied class of porous materials, which distinguish themselves from other porous polymers in their crystallinity and high degree of modularity, enabling a wide range of applications. COFs are most commonly synthesized solvothermally, which is often a time‐consuming process and restricted to well‐soluble precursor molecules. Synthesis of polyimide‐linked COFs (PI‐COFs) is further complicated by the poor reversibility of the ring‐closing reaction under solvothermal conditions. Herein, we report the ionothermal synthesis of crystalline and porous PI‐COFs in zinc chloride and eutectic salt mixtures. This synthesis does not require soluble precursors and the reaction time is significantly reduced as compared to standard solvothermal synthesis methods. In addition to applying the synthesis to previously reported imide COFs, a new perylene‐based COF was also synthesized, which could not be obtained by the classical solvothermal route. In situ high‐temperature XRPD analysis hints to the formation of precursor-salt adducts as crystalline intermediates, which then react with each other to form the COF.<br> All primary data files of measurements and processed data of the journal article mentioned under related publications from Lotsch group can be found here.<br> This dataset contains all data from analytical measurements including crystal structures, SEM/EDX, FT-IR, NMR, BET plots, PL spectra, PXRD, TEM, and UV-vis absorption of the journal article mentioned under the related publication.

Kind of Data:

experimental data

Notes:

View data by "tree" to understand the file structure and file names according to the designations used in the original publication.

Methodology and Processing

Sources Statement

Data Access

Other Study Description Materials

Related Publications

Citation

Title:

J. Maschita, T. Banerjee, G. Savasci, F. Haase, C. Ochsenfeld, B. V. Lotsch, Ionothermal Synthesis of Imide-Linked Covalent Organic Frameworks, Angew. Chem. Int. Ed. 2020, 59, 15750-15758.

Identification Number:

10.1002/anie.202007372

Bibliographic Citation:

J. Maschita, T. Banerjee, G. Savasci, F. Haase, C. Ochsenfeld, B. V. Lotsch, Ionothermal Synthesis of Imide-Linked Covalent Organic Frameworks, Angew. Chem. Int. Ed. 2020, 59, 15750-15758.

Other Study-Related Materials

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Crystal Structures.zip

Notes:

application/zip

Other Study-Related Materials

Label:

EDX.zip

Notes:

application/zip

Other Study-Related Materials

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IR.zip

Notes:

application/zip

Other Study-Related Materials

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NMR.zip

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application/zip

Other Study-Related Materials

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Scherrer Analysis.zip

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application/zip

Other Study-Related Materials

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SEM.zip

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application/zip

Other Study-Related Materials

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Sorption.zip

Notes:

application/zip

Other Study-Related Materials

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TEM.zip

Notes:

application/zip

Other Study-Related Materials

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UV-VIS.zip

Notes:

application/zip

Other Study-Related Materials

Label:

XRPD.zip

Notes:

application/zip