Construction of Porous Tetrazine-Functionalized Networks: From Two- to Three-Dimensional Counterparts with Tunable Properties

Xian Suo; Juntian Fan; Liqi Qiu; Meijia Li; Bishnu P. Thapaliya; Chi Linh Do-Thanh; Ziyang Lu; Ilja Popovs; Shannon M. Mahurin; Zhenzhen Yang; Sheng Dai

doi:10.1002/cmtd.202400042

Construction of Porous Tetrazine-Functionalized Networks: From Two- to Three-Dimensional Counterparts with Tunable Properties

Xian Suo, Juntian Fan, Liqi Qiu, Meijia Li, Bishnu P. Thapaliya, Chi Linh Do-Thanh, Ziyang Lu, Ilja Popovs, Shannon M. Mahurin, Zhenzhen Yang, Sheng Dai

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

Abstract

Porous organic networks (PONs) linked by aza-fused rings are extensively studied and demonstrated wide applications in diverse fields. It is a long-term attractive and challenging subject to explore novel PONs functionalized by unexplored aza-fused moieties. Herein, a series of tetrazine-linked PONs (Tz-PONs) were constructed from two-dimensional to three-dimensional counterparts with tunable properties. The reaction pathway composed of the amidrazone intermediates formation using multiply substituted aromatic nitrile monomers was catalyzed by zinc salts with Lewis super acidity in the presence of hydrazine, and the subsequent tetrazine formation was assisted by sodium nitrite solution. Textural property of the as-constructed scaffolds could be tuned by the acidity of the zinc salts, as well as the organic solvents. As an initial assessment, those Tz-PONs displayed different photo absorption behavior, which may influence the corresponding photocatalysis.

Original language	English
Article number	e202400042
Journal	Chemistry-Methods
Volume	5
Issue number	4
DOIs	https://doi.org/10.1002/cmtd.202400042
State	Published - Apr 2025

Funding

The research was supported financially by the Division of Chemical Sciences, Geosciences, and Biosciences, Office of Basic Energy Sciences, US Department of Energy.

Keywords

aza-fused functionality
photo absorption
porous materials
porous organic networks

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10.1002/cmtd.202400042

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title = "Construction of Porous Tetrazine-Functionalized Networks: From Two- to Three-Dimensional Counterparts with Tunable Properties",

abstract = "Porous organic networks (PONs) linked by aza-fused rings are extensively studied and demonstrated wide applications in diverse fields. It is a long-term attractive and challenging subject to explore novel PONs functionalized by unexplored aza-fused moieties. Herein, a series of tetrazine-linked PONs (Tz-PONs) were constructed from two-dimensional to three-dimensional counterparts with tunable properties. The reaction pathway composed of the amidrazone intermediates formation using multiply substituted aromatic nitrile monomers was catalyzed by zinc salts with Lewis super acidity in the presence of hydrazine, and the subsequent tetrazine formation was assisted by sodium nitrite solution. Textural property of the as-constructed scaffolds could be tuned by the acidity of the zinc salts, as well as the organic solvents. As an initial assessment, those Tz-PONs displayed different photo absorption behavior, which may influence the corresponding photocatalysis.",

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author = "Xian Suo and Juntian Fan and Liqi Qiu and Meijia Li and Thapaliya, {Bishnu P.} and Do-Thanh, {Chi Linh} and Ziyang Lu and Ilja Popovs and Mahurin, {Shannon M.} and Zhenzhen Yang and Sheng Dai",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Chemistry - Methods published by Chemistry Europe and Wiley-VCH GmbH.",

year = "2025",

month = apr,

doi = "10.1002/cmtd.202400042",

language = "English",

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journal = "Chemistry-Methods",

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AU - Suo, Xian

AU - Fan, Juntian

AU - Qiu, Liqi

AU - Li, Meijia

AU - Thapaliya, Bishnu P.

AU - Do-Thanh, Chi Linh

AU - Lu, Ziyang

AU - Popovs, Ilja

AU - Mahurin, Shannon M.

AU - Yang, Zhenzhen

AU - Dai, Sheng

PY - 2025/4

Y1 - 2025/4

N2 - Porous organic networks (PONs) linked by aza-fused rings are extensively studied and demonstrated wide applications in diverse fields. It is a long-term attractive and challenging subject to explore novel PONs functionalized by unexplored aza-fused moieties. Herein, a series of tetrazine-linked PONs (Tz-PONs) were constructed from two-dimensional to three-dimensional counterparts with tunable properties. The reaction pathway composed of the amidrazone intermediates formation using multiply substituted aromatic nitrile monomers was catalyzed by zinc salts with Lewis super acidity in the presence of hydrazine, and the subsequent tetrazine formation was assisted by sodium nitrite solution. Textural property of the as-constructed scaffolds could be tuned by the acidity of the zinc salts, as well as the organic solvents. As an initial assessment, those Tz-PONs displayed different photo absorption behavior, which may influence the corresponding photocatalysis.

AB - Porous organic networks (PONs) linked by aza-fused rings are extensively studied and demonstrated wide applications in diverse fields. It is a long-term attractive and challenging subject to explore novel PONs functionalized by unexplored aza-fused moieties. Herein, a series of tetrazine-linked PONs (Tz-PONs) were constructed from two-dimensional to three-dimensional counterparts with tunable properties. The reaction pathway composed of the amidrazone intermediates formation using multiply substituted aromatic nitrile monomers was catalyzed by zinc salts with Lewis super acidity in the presence of hydrazine, and the subsequent tetrazine formation was assisted by sodium nitrite solution. Textural property of the as-constructed scaffolds could be tuned by the acidity of the zinc salts, as well as the organic solvents. As an initial assessment, those Tz-PONs displayed different photo absorption behavior, which may influence the corresponding photocatalysis.

KW - aza-fused functionality

KW - photo absorption

KW - porous materials

KW - porous organic networks

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DO - 10.1002/cmtd.202400042

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VL - 5

JO - Chemistry-Methods

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ER -

Construction of Porous Tetrazine-Functionalized Networks: From Two- to Three-Dimensional Counterparts with Tunable Properties

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Keywords

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