Superprotonic Conductivity of MOFs Confining Zwitterionic Sulfamic Acid as Proton Source and Conducting Medium

Amitosh Sharma; Jaewoong Lim; Seonghwan Lee; Seungwan Han; Junmo Seong; Seung Bin Baek; Myoung Soo Lah

doi:10.1002/anie.202302376

Superprotonic Conductivity of MOFs Confining Zwitterionic Sulfamic Acid as Proton Source and Conducting Medium

Amitosh Sharma
, Jaewoong Lim
, Seonghwan Lee
, Seungwan Han
, Junmo Seong
, Seung Bin Baek
, Myoung Soo Lah

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

49 Scopus citations

Abstract

A few metal–organic frameworks (MOFs), which typically use strong acids as proton sources, display superprotonic conductivity (≈10⁻¹ S cm⁻¹); however, they are rare due to the instability of MOFs in highly acidic conditions. For the first time, we report superprotonic conductivity using a moderately acidic guest, zwitterionic sulfamic acid (HSA), which is encapsulated in MOF-808 and MIL-101. HSA acts not only as a proton source but also as a proton-conducting medium due to its extensive hydrogen bonding ability and zwitterion effect. A new sustained concentration gradient method results in higher HSA encapsulation compared to conventional methods, producing 10HSA@MOF-808-(bSA)₂ and 8HSA@MIL-101. These MOFs show impressive superprotonic conductivity of 2.47×10⁻¹ and 3.06×10⁻¹ S cm⁻¹, respectively, at 85 °C and 98 % relative humidity, and maintain stability for 7 days.

Original language	English
Article number	e202302376
Journal	Angewandte Chemie - International Edition
Volume	62
Issue number	29
DOIs	https://doi.org/10.1002/anie.202302376
State	Published - 17 Jul 2023

Bibliographical note

Publisher Copyright:
© 2023 Wiley-VCH GmbH.

Keywords

Metal–Organic Framework (MOF)
Proton Conducting Medium
Proton Source
Sulfamic Acid
Superprotonic Conductivity

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@article{21eb1ea101354e33aa2291d06765a6d3,

title = "Superprotonic Conductivity of MOFs Confining Zwitterionic Sulfamic Acid as Proton Source and Conducting Medium",

abstract = "A few metal–organic frameworks (MOFs), which typically use strong acids as proton sources, display superprotonic conductivity (≈10−1 S cm−1); however, they are rare due to the instability of MOFs in highly acidic conditions. For the first time, we report superprotonic conductivity using a moderately acidic guest, zwitterionic sulfamic acid (HSA), which is encapsulated in MOF-808 and MIL-101. HSA acts not only as a proton source but also as a proton-conducting medium due to its extensive hydrogen bonding ability and zwitterion effect. A new sustained concentration gradient method results in higher HSA encapsulation compared to conventional methods, producing 10HSA@MOF-808-(bSA)2 and 8HSA@MIL-101. These MOFs show impressive superprotonic conductivity of 2.47×10−1 and 3.06×10−1 S cm−1, respectively, at 85 °C and 98 \% relative humidity, and maintain stability for 7 days.",

keywords = "Metal–Organic Framework (MOF), Proton Conducting Medium, Proton Source, Sulfamic Acid, Superprotonic Conductivity",

author = "Amitosh Sharma and Jaewoong Lim and Seonghwan Lee and Seungwan Han and Junmo Seong and \{Bin Baek\}, Seung and \{Soo Lah\}, Myoung",

note = "Publisher Copyright: {\textcopyright} 2023 Wiley-VCH GmbH.",

year = "2023",

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doi = "10.1002/anie.202302376",

language = "English",

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AU - Sharma, Amitosh

AU - Lim, Jaewoong

AU - Lee, Seonghwan

AU - Han, Seungwan

AU - Seong, Junmo

AU - Bin Baek, Seung

AU - Soo Lah, Myoung

PY - 2023/7/17

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N2 - A few metal–organic frameworks (MOFs), which typically use strong acids as proton sources, display superprotonic conductivity (≈10−1 S cm−1); however, they are rare due to the instability of MOFs in highly acidic conditions. For the first time, we report superprotonic conductivity using a moderately acidic guest, zwitterionic sulfamic acid (HSA), which is encapsulated in MOF-808 and MIL-101. HSA acts not only as a proton source but also as a proton-conducting medium due to its extensive hydrogen bonding ability and zwitterion effect. A new sustained concentration gradient method results in higher HSA encapsulation compared to conventional methods, producing 10HSA@MOF-808-(bSA)2 and 8HSA@MIL-101. These MOFs show impressive superprotonic conductivity of 2.47×10−1 and 3.06×10−1 S cm−1, respectively, at 85 °C and 98 % relative humidity, and maintain stability for 7 days.

AB - A few metal–organic frameworks (MOFs), which typically use strong acids as proton sources, display superprotonic conductivity (≈10−1 S cm−1); however, they are rare due to the instability of MOFs in highly acidic conditions. For the first time, we report superprotonic conductivity using a moderately acidic guest, zwitterionic sulfamic acid (HSA), which is encapsulated in MOF-808 and MIL-101. HSA acts not only as a proton source but also as a proton-conducting medium due to its extensive hydrogen bonding ability and zwitterion effect. A new sustained concentration gradient method results in higher HSA encapsulation compared to conventional methods, producing 10HSA@MOF-808-(bSA)2 and 8HSA@MIL-101. These MOFs show impressive superprotonic conductivity of 2.47×10−1 and 3.06×10−1 S cm−1, respectively, at 85 °C and 98 % relative humidity, and maintain stability for 7 days.

KW - Metal–Organic Framework (MOF)

KW - Proton Conducting Medium

KW - Proton Source

KW - Sulfamic Acid

KW - Superprotonic Conductivity

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U2 - 10.1002/anie.202302376

DO - 10.1002/anie.202302376

M3 - Article

C2 - 37160648

AN - SCOPUS:85159958020

SN - 1433-7851

VL - 62

JO - Angewandte Chemie - International Edition

JF - Angewandte Chemie - International Edition

IS - 29

M1 - e202302376

ER -

Superprotonic Conductivity of MOFs Confining Zwitterionic Sulfamic Acid as Proton Source and Conducting Medium

Abstract

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Keywords

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