Porous Organic Cage Nanostructures for Construction of Complex Sequential Reaction Networks

Yao Ji Du; Jun Hao Zhou; Liang Xiao Tan; Si Hua Liu; Ke Zhao; Zhi Ming Gao; Jian Ke Sun

doi:10.1021/acsanm.2c01057

Porous Organic Cage Nanostructures for Construction of Complex Sequential Reaction Networks

Yao Ji Du, Jun Hao Zhou, Liang Xiao Tan, Si Hua Liu, Ke Zhao, Zhi Ming Gao, Jian Ke Sun^*

^*此作品的通讯作者

化学与化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

4 引用（Scopus）

摘要

Living systems integrate complex sequential chemical reactions by spatially organizing enzymes confined inside subcellular organelles. Inspired by the ingenuity from nature, we have shown that the integrated artificial Pd cluster@porous organic cage-C₃N₄catalyst can boost a series of sequential reactions, from simple two-step, to complicated multistep and even convergent catalysis. Specifically, the Pd cluster encapsulated cationic cage (Pd@C-Cage⁺) undergoes ionic complexation with anionic carbon nitride (C₃N₄^-), in which C-Cage⁺compartmentalizes the dual catalytic centers (Pd cluster and C₃N₄^-) to accelerate diverse reactions via a substrate channelling effect. Moreover, the current artificial catalyst system (Pd@C-Cage⁺/C₃N₄^-) is able to integrate diverse logic networks to achieve intricate digital designs by combining two concatenated AND gates and various inputs, which will inspire future chemical synthesis with enhanced efficiency.

源语言	英语
页（从-至）	7974-7982
页数	9
期刊	ACS Applied Nano Materials
卷	5
期	6
DOI	https://doi.org/10.1021/acsanm.2c01057
出版状态	已出版 - 24 6月 2022

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title = "Porous Organic Cage Nanostructures for Construction of Complex Sequential Reaction Networks",

abstract = "Living systems integrate complex sequential chemical reactions by spatially organizing enzymes confined inside subcellular organelles. Inspired by the ingenuity from nature, we have shown that the integrated artificial Pd cluster@porous organic cage-C3N4catalyst can boost a series of sequential reactions, from simple two-step, to complicated multistep and even convergent catalysis. Specifically, the Pd cluster encapsulated cationic cage (Pd@C-Cage+) undergoes ionic complexation with anionic carbon nitride (C3N4-), in which C-Cage+compartmentalizes the dual catalytic centers (Pd cluster and C3N4-) to accelerate diverse reactions via a substrate channelling effect. Moreover, the current artificial catalyst system (Pd@C-Cage+/C3N4-) is able to integrate diverse logic networks to achieve intricate digital designs by combining two concatenated AND gates and various inputs, which will inspire future chemical synthesis with enhanced efficiency.",

keywords = "metal clusters, nanostructure, porous organic cage, sequential reactions, synthesis",

author = "Du, {Yao Ji} and Zhou, {Jun Hao} and Tan, {Liang Xiao} and Liu, {Si Hua} and Ke Zhao and Gao, {Zhi Ming} and Sun, {Jian Ke}",

year = "2022",

month = jun,

day = "24",

doi = "10.1021/acsanm.2c01057",

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T1 - Porous Organic Cage Nanostructures for Construction of Complex Sequential Reaction Networks

AU - Du, Yao Ji

AU - Zhou, Jun Hao

AU - Tan, Liang Xiao

AU - Liu, Si Hua

AU - Zhao, Ke

AU - Gao, Zhi Ming

AU - Sun, Jian Ke

PY - 2022/6/24

Y1 - 2022/6/24

N2 - Living systems integrate complex sequential chemical reactions by spatially organizing enzymes confined inside subcellular organelles. Inspired by the ingenuity from nature, we have shown that the integrated artificial Pd cluster@porous organic cage-C3N4catalyst can boost a series of sequential reactions, from simple two-step, to complicated multistep and even convergent catalysis. Specifically, the Pd cluster encapsulated cationic cage (Pd@C-Cage+) undergoes ionic complexation with anionic carbon nitride (C3N4-), in which C-Cage+compartmentalizes the dual catalytic centers (Pd cluster and C3N4-) to accelerate diverse reactions via a substrate channelling effect. Moreover, the current artificial catalyst system (Pd@C-Cage+/C3N4-) is able to integrate diverse logic networks to achieve intricate digital designs by combining two concatenated AND gates and various inputs, which will inspire future chemical synthesis with enhanced efficiency.

AB - Living systems integrate complex sequential chemical reactions by spatially organizing enzymes confined inside subcellular organelles. Inspired by the ingenuity from nature, we have shown that the integrated artificial Pd cluster@porous organic cage-C3N4catalyst can boost a series of sequential reactions, from simple two-step, to complicated multistep and even convergent catalysis. Specifically, the Pd cluster encapsulated cationic cage (Pd@C-Cage+) undergoes ionic complexation with anionic carbon nitride (C3N4-), in which C-Cage+compartmentalizes the dual catalytic centers (Pd cluster and C3N4-) to accelerate diverse reactions via a substrate channelling effect. Moreover, the current artificial catalyst system (Pd@C-Cage+/C3N4-) is able to integrate diverse logic networks to achieve intricate digital designs by combining two concatenated AND gates and various inputs, which will inspire future chemical synthesis with enhanced efficiency.

KW - metal clusters

KW - nanostructure

KW - porous organic cage

KW - sequential reactions

KW - synthesis

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JO - ACS Applied Nano Materials

JF - ACS Applied Nano Materials

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ER -

Porous Organic Cage Nanostructures for Construction of Complex Sequential Reaction Networks

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