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Literature DB >> 26864392

Rational design and synthesis of a porous, task-specific polycarbazole for efficient CO2 capture.

Tian Jin¹, Yan Xiong¹, Xiang Zhu², Ziqi Tian³, Duan-Jian Tao², Jun Hu¹, De-en Jiang³, Hualin Wang⁴, Honglai Liu¹, Sheng Dai⁵.

Abstract

We present a rational design and synthesis of a novel porous pyridine-functionalized polycarbazole for efficient CO2 capture based on the density functional theory calculations. The task-specific polymer, generated through a one-step FeCl3-catalyzed oxidative coupling reaction, exhibits a superior CO2 uptake at 1.0 bar and 273 K (5.57 mmol g(-1)).

Entities: Chemical

Year: 2016 PMID： 26864392 DOI： 10.1039/c6cc00573j

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

4 in total

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Journal: Chem Soc Rev Date: 2022-04-04 Impact factor: 54.564

2. Knitting polycyclic aromatic hydrocarbon-based microporous organic polymers for efficient CO₂ capture.

Authors: Shuangshuang Hou; Shaolei Wang; Xuejun Long; Bien Tan
Journal: RSC Adv Date: 2018-03-13 Impact factor: 3.361

3. Synthesis of tunable porosity of fluorine-enriched porous organic polymer materials with excellent CO₂, CH₄ and iodine adsorption.

Authors: Guoyan Li; Chan Yao; Jiku Wang; Yanhong Xu
Journal: Sci Rep Date: 2017-10-25 Impact factor: 4.379

4. Synthesis of Naphthalene-Based Polyaminal-Linked Porous Polymers for Highly Effective Uptake of CO₂ and Heavy Metals.

Authors: Manal Ibrahim; Nada Tashkandi; Nikos Hadjichristidis; Nazeeha S Alkayal
Journal: Polymers (Basel) Date: 2022-03-11 Impact factor: 4.329

4 in total

Rational design and synthesis of a porous, task-specific polycarbazole for efficient CO2 capture.

Review 1. The mechanochemical synthesis of polymers.

2. Knitting polycyclic aromatic hydrocarbon-based microporous organic polymers for efficient CO2 capture.

3. Synthesis of tunable porosity of fluorine-enriched porous organic polymer materials with excellent CO2, CH4 and iodine adsorption.

4. Synthesis of Naphthalene-Based Polyaminal-Linked Porous Polymers for Highly Effective Uptake of CO2 and Heavy Metals.

2. Knitting polycyclic aromatic hydrocarbon-based microporous organic polymers for efficient CO₂ capture.

3. Synthesis of tunable porosity of fluorine-enriched porous organic polymer materials with excellent CO₂, CH₄ and iodine adsorption.

4. Synthesis of Naphthalene-Based Polyaminal-Linked Porous Polymers for Highly Effective Uptake of CO₂ and Heavy Metals.