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Literature DB >> 24915169

Conjugated microporous polytriphenylamine networks.

Yaozu Liao¹, Jens Weber, Charl F J Faul.

Abstract

Conjugated microporous polytriphenylamine networks with surface areas of 530 m(2) g(-1) were synthesized via Buchwald-Hartwig coupling, resulting in high CO2 uptake (up to 6.5 wt%) and CO2-N2 selectivity (75) at 1 bar and 303 K.

Entities: Chemical

Year: 2014 PMID： 24915169 DOI： 10.1039/c4cc03026e

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

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Cited

3 in total

1. Advances in Conjugated Microporous Polymers.

Authors: Jet-Sing M Lee; Andrew I Cooper
Journal: Chem Rev Date: 2020-01-28 Impact factor: 60.622

2. Tunable Surface Area, Porosity, and Function in Conjugated Microporous Polymers.

Authors: Jie Chen; Wei Yan; Esther J Townsend; Jiangtao Feng; Long Pan; Veronica Del Angel Hernandez; Charl F J Faul
Journal: Angew Chem Int Ed Engl Date: 2019-07-17 Impact factor: 15.336

3. Microporous Carbon and Carbon/Metal Composite Materials Derived from Bio-Benzoxazine-Linked Precursor for CO₂ Capture and Energy Storage Applications.

Authors: Mohamed Gamal Mohamed; Maha Mohamed Samy; Tharwat Hassan Mansoure; Chia-Jung Li; Wen-Cheng Li; Jung-Hui Chen; Kan Zhang; Shiao-Wei Kuo
Journal: Int J Mol Sci Date: 2021-12-29 Impact factor: 5.923

3 in total

Conjugated microporous polytriphenylamine networks.

1. Advances in Conjugated Microporous Polymers.

2. Tunable Surface Area, Porosity, and Function in Conjugated Microporous Polymers.

3. Microporous Carbon and Carbon/Metal Composite Materials Derived from Bio-Benzoxazine-Linked Precursor for CO2 Capture and Energy Storage Applications.

3. Microporous Carbon and Carbon/Metal Composite Materials Derived from Bio-Benzoxazine-Linked Precursor for CO₂ Capture and Energy Storage Applications.