Polynorepinephrine-regulated filler sulfonation toward interfacial reformation and conductive promotion of nanocomposite proton exchange membrane

Tong Huang; Xin Liu; Ruibin Ma; Yangyang Gao; Xiaomin Xu; Chengrun Yan; Yuchen Guo; Xiaoxu Li; Yanzhou Qin; Lingling Liu; Jiandang Xue; Huadong Huang; Xiyuan Zhang; Xiaochun Yin; Shaoxiong Zhai; Tianbao Zhao; Jiechao Chen; Xiaoyang Jia; Shaojian He; Jun Lin; Liqun Zhang

doi:10.1016/j.cej.2024.149582

Polynorepinephrine-regulated filler sulfonation toward interfacial reformation and conductive promotion of nanocomposite proton exchange membrane

Tong Huang
, Xin Liu
, Ruibin Ma
, Yangyang Gao
, Xiaomin Xu
, Chengrun Yan
, Yuchen Guo
, Xiaoxu Li
, Yanzhou Qin
, Lingling Liu
, Jiandang Xue
, Huadong Huang
, Xiyuan Zhang
, Xiaochun Yin
, Shaoxiong Zhai
, Tianbao Zhao
, Jiechao Chen
, Xiaoyang Jia
, Shaojian He
, Jun Lin

Liqun Zhang

Tianjin University
Ltd.
Nanjing Tech University
Ltd.
Beijing University of Chemical Technology
Zhejiang University
Sichuan University
The University of Tokyo
Hubei University of Automotive Technology
South China University of Technology
Beijing Institute of Smart Energy
Tsinghua University
Xihua University
Dongguan University of Technology
North China Electric Power University

科研成果: 期刊稿件 › 文章 › 同行评审

8 引用（Scopus）

摘要

Interfacial compatibility between filler and matrix substantially affects the overall morphology and performance of nanocomposites. Compared with bare montmorillonite (MMT), surface modified product such as sulfonated MMT (SMMT) has been known to render optimized interfacial compatibility in composite proton exchange membranes (PEMs) for proton exchange membrane fuel cells (PEMFCs) and direct methanol fuel cells (DMFCs). Nevertheless, in-depth understanding and investigation on the sulfonation of MMT are seldom focused, such as uniformity and sufficiency. Herein, these broadly neglected issues are proposed and resolved using an exemplary polynorepinephrine (PNE)-regulated SMMT (SNMMT). Rather than direct sulfonation utilizing the inherent hydroxyl groups of MMT, a PNE coating with ample hydroxyl groups is deposited on MMT beforehand, which results in more homogeneous and sufficient sulfonation of SNMMT. Compared with normal SMMT, this alteration on surficial geography of filler functionalization brings significant benefits when composited with Nafion matrix, including harmonized filler-matrix compatibility, improved mechanical stability and enhanced proton conduction. Moreover, the antioxidative ability of PNE layer enables improved chemical stability of nanocomposite PEM. The Nafion/SNMMT composite PEM achieves 0.275 S cm⁻¹ proton conductivity at 95 °C in water, evidently beyond any previously reported composite PEMs using normal SMMT. Equipped with this reformed nanocomposite PEM, both PEMFC and DMFC display competitive peak power densities (1.121 W cm⁻² with H₂/O₂ at 80 °C/100 % relative humidity (RH) for PEMFC, and 0.228 W cm⁻² with 1.6 M methanol/100 % RH O₂ for DMFC), and simultaneously show minor performance deteriorations in constant current density operation and RH cycle tests. It would be instructive the specific focus and reformation on the uniformity and sufficiency of filler modification may render significant interface and performance advancements for nanocomposites.

源语言	英语
文章编号	149582
期刊	Chemical Engineering Journal
卷	484
DOI	https://doi.org/10.1016/j.cej.2024.149582
出版状态	已出版 - 15 3月 2024
已对外发布	是

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Huang, T., Liu, X., Ma, R., Gao, Y., Xu, X., Yan, C., Guo, Y., Li, X., Qin, Y., Liu, L., Xue, J., Huang, H., Zhang, X., Yin, X., Zhai, S., Zhao, T., Chen, J., Jia, X., He, S., ... Zhang, L. (2024). Polynorepinephrine-regulated filler sulfonation toward interfacial reformation and conductive promotion of nanocomposite proton exchange membrane. Chemical Engineering Journal, 484, 文章 149582. https://doi.org/10.1016/j.cej.2024.149582

@article{0441ec4b872d4322b7b79d0505a080ea,

title = "Polynorepinephrine-regulated filler sulfonation toward interfacial reformation and conductive promotion of nanocomposite proton exchange membrane",

abstract = "Interfacial compatibility between filler and matrix substantially affects the overall morphology and performance of nanocomposites. Compared with bare montmorillonite (MMT), surface modified product such as sulfonated MMT (SMMT) has been known to render optimized interfacial compatibility in composite proton exchange membranes (PEMs) for proton exchange membrane fuel cells (PEMFCs) and direct methanol fuel cells (DMFCs). Nevertheless, in-depth understanding and investigation on the sulfonation of MMT are seldom focused, such as uniformity and sufficiency. Herein, these broadly neglected issues are proposed and resolved using an exemplary polynorepinephrine (PNE)-regulated SMMT (SNMMT). Rather than direct sulfonation utilizing the inherent hydroxyl groups of MMT, a PNE coating with ample hydroxyl groups is deposited on MMT beforehand, which results in more homogeneous and sufficient sulfonation of SNMMT. Compared with normal SMMT, this alteration on surficial geography of filler functionalization brings significant benefits when composited with Nafion matrix, including harmonized filler-matrix compatibility, improved mechanical stability and enhanced proton conduction. Moreover, the antioxidative ability of PNE layer enables improved chemical stability of nanocomposite PEM. The Nafion/SNMMT composite PEM achieves 0.275 S cm−1 proton conductivity at 95 °C in water, evidently beyond any previously reported composite PEMs using normal SMMT. Equipped with this reformed nanocomposite PEM, both PEMFC and DMFC display competitive peak power densities (1.121 W cm−2 with H2/O2 at 80 °C/100 \% relative humidity (RH) for PEMFC, and 0.228 W cm−2 with 1.6 M methanol/100 \% RH O2 for DMFC), and simultaneously show minor performance deteriorations in constant current density operation and RH cycle tests. It would be instructive the specific focus and reformation on the uniformity and sufficiency of filler modification may render significant interface and performance advancements for nanocomposites.",

keywords = "Filler functionalization, Fuel cell, Interfacial compatibility, Organic-inorganic nanocomposite, Proton conduction",

author = "Tong Huang and Xin Liu and Ruibin Ma and Yangyang Gao and Xiaomin Xu and Chengrun Yan and Yuchen Guo and Xiaoxu Li and Yanzhou Qin and Lingling Liu and Jiandang Xue and Huadong Huang and Xiyuan Zhang and Xiaochun Yin and Shaoxiong Zhai and Tianbao Zhao and Jiechao Chen and Xiaoyang Jia and Shaojian He and Jun Lin and Liqun Zhang",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier B.V.",

year = "2024",

month = mar,

day = "15",

doi = "10.1016/j.cej.2024.149582",

language = "英语",

volume = "484",

journal = "Chemical Engineering Journal",

issn = "1385-8947",

publisher = "Elsevier B.V.",

}

Huang, T, Liu, X, Ma, R, Gao, Y, Xu, X, Yan, C, Guo, Y, Li, X, Qin, Y, Liu, L, Xue, J, Huang, H, Zhang, X, Yin, X, Zhai, S, Zhao, T, Chen, J, Jia, X, He, S, Lin, J & Zhang, L 2024, 'Polynorepinephrine-regulated filler sulfonation toward interfacial reformation and conductive promotion of nanocomposite proton exchange membrane', Chemical Engineering Journal, 卷 484, 149582. https://doi.org/10.1016/j.cej.2024.149582

TY - JOUR

T1 - Polynorepinephrine-regulated filler sulfonation toward interfacial reformation and conductive promotion of nanocomposite proton exchange membrane

AU - Huang, Tong

AU - Liu, Xin

AU - Ma, Ruibin

AU - Gao, Yangyang

AU - Xu, Xiaomin

AU - Yan, Chengrun

AU - Guo, Yuchen

AU - Li, Xiaoxu

AU - Qin, Yanzhou

AU - Liu, Lingling

AU - Xue, Jiandang

AU - Huang, Huadong

AU - Zhang, Xiyuan

AU - Yin, Xiaochun

AU - Zhai, Shaoxiong

AU - Zhao, Tianbao

AU - Chen, Jiechao

AU - Jia, Xiaoyang

AU - He, Shaojian

AU - Lin, Jun

AU - Zhang, Liqun

PY - 2024/3/15

Y1 - 2024/3/15

N2 - Interfacial compatibility between filler and matrix substantially affects the overall morphology and performance of nanocomposites. Compared with bare montmorillonite (MMT), surface modified product such as sulfonated MMT (SMMT) has been known to render optimized interfacial compatibility in composite proton exchange membranes (PEMs) for proton exchange membrane fuel cells (PEMFCs) and direct methanol fuel cells (DMFCs). Nevertheless, in-depth understanding and investigation on the sulfonation of MMT are seldom focused, such as uniformity and sufficiency. Herein, these broadly neglected issues are proposed and resolved using an exemplary polynorepinephrine (PNE)-regulated SMMT (SNMMT). Rather than direct sulfonation utilizing the inherent hydroxyl groups of MMT, a PNE coating with ample hydroxyl groups is deposited on MMT beforehand, which results in more homogeneous and sufficient sulfonation of SNMMT. Compared with normal SMMT, this alteration on surficial geography of filler functionalization brings significant benefits when composited with Nafion matrix, including harmonized filler-matrix compatibility, improved mechanical stability and enhanced proton conduction. Moreover, the antioxidative ability of PNE layer enables improved chemical stability of nanocomposite PEM. The Nafion/SNMMT composite PEM achieves 0.275 S cm−1 proton conductivity at 95 °C in water, evidently beyond any previously reported composite PEMs using normal SMMT. Equipped with this reformed nanocomposite PEM, both PEMFC and DMFC display competitive peak power densities (1.121 W cm−2 with H2/O2 at 80 °C/100 % relative humidity (RH) for PEMFC, and 0.228 W cm−2 with 1.6 M methanol/100 % RH O2 for DMFC), and simultaneously show minor performance deteriorations in constant current density operation and RH cycle tests. It would be instructive the specific focus and reformation on the uniformity and sufficiency of filler modification may render significant interface and performance advancements for nanocomposites.

AB - Interfacial compatibility between filler and matrix substantially affects the overall morphology and performance of nanocomposites. Compared with bare montmorillonite (MMT), surface modified product such as sulfonated MMT (SMMT) has been known to render optimized interfacial compatibility in composite proton exchange membranes (PEMs) for proton exchange membrane fuel cells (PEMFCs) and direct methanol fuel cells (DMFCs). Nevertheless, in-depth understanding and investigation on the sulfonation of MMT are seldom focused, such as uniformity and sufficiency. Herein, these broadly neglected issues are proposed and resolved using an exemplary polynorepinephrine (PNE)-regulated SMMT (SNMMT). Rather than direct sulfonation utilizing the inherent hydroxyl groups of MMT, a PNE coating with ample hydroxyl groups is deposited on MMT beforehand, which results in more homogeneous and sufficient sulfonation of SNMMT. Compared with normal SMMT, this alteration on surficial geography of filler functionalization brings significant benefits when composited with Nafion matrix, including harmonized filler-matrix compatibility, improved mechanical stability and enhanced proton conduction. Moreover, the antioxidative ability of PNE layer enables improved chemical stability of nanocomposite PEM. The Nafion/SNMMT composite PEM achieves 0.275 S cm−1 proton conductivity at 95 °C in water, evidently beyond any previously reported composite PEMs using normal SMMT. Equipped with this reformed nanocomposite PEM, both PEMFC and DMFC display competitive peak power densities (1.121 W cm−2 with H2/O2 at 80 °C/100 % relative humidity (RH) for PEMFC, and 0.228 W cm−2 with 1.6 M methanol/100 % RH O2 for DMFC), and simultaneously show minor performance deteriorations in constant current density operation and RH cycle tests. It would be instructive the specific focus and reformation on the uniformity and sufficiency of filler modification may render significant interface and performance advancements for nanocomposites.

KW - Filler functionalization

KW - Fuel cell

KW - Interfacial compatibility

KW - Organic-inorganic nanocomposite

KW - Proton conduction

UR - https://www.scopus.com/pages/publications/85185463388

U2 - 10.1016/j.cej.2024.149582

DO - 10.1016/j.cej.2024.149582

M3 - 文章

AN - SCOPUS:85185463388

SN - 1385-8947

VL - 484

JO - Chemical Engineering Journal

JF - Chemical Engineering Journal

M1 - 149582

ER -

Polynorepinephrine-regulated filler sulfonation toward interfacial reformation and conductive promotion of nanocomposite proton exchange membrane

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