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Literature DB >> 27739226

Highly Efficient Nitric Oxide Capture by Azole-Based Ionic Liquids through Multiple-Site Absorption.

Kaihong Chen¹, Guiling Shi¹, Xiuyuan Zhou¹, Haoran Li¹, Congmin Wang^2,3.

Abstract

A novel method for highly efficient nitric oxide absorption by azole-based ionic liquid was reported. The NO absorption capacity reached up to 4.52 mol per mol ionic liquid and is significant higher than the capacity other traditional absorbents. Moreover, the absorption of NO by this ionic liquid was reversible. Through a combination of experimental absorption, quantum chemical calculation, NMR and FT-IR spectroscopic investigation, the results indicated that such high capacity originated from multiple-site interactions between NO and the anion through the formation of NONOate with the chemical formula R1 R2 N-(NO- )-N=O, where R1 and R2 are alkyl groups. We believe that this highly efficient and reversible NO absorption by an azole-based ionic liquid paves a new way for gas capture and utilization.

Entities: Chemical

Keywords: absorption; gas capture; green chemistry; ionic liquids; nitric oxide

Year: 2016 PMID： 27739226 DOI： 10.1002/anie.201607528

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

5 in total

1. Design and tuning of ionic liquid-based HNO donor through intramolecular hydrogen bond for efficient inhibition of tumor growth.

Authors: Xiaoyu Lv; Kaihong Chen; Guiling Shi; Wenjun Lin; Hongzhen Bai; Haoran Li; Guping Tang; Congmin Wang
Journal: Sci Adv Date: 2020-11-06 Impact factor: 14.136

Highly Efficient Nitric Oxide Capture by Azole-Based Ionic Liquids through Multiple-Site Absorption.

1. Design and tuning of ionic liquid-based HNO donor through intramolecular hydrogen bond for efficient inhibition of tumor growth.

2. Combined Superbase Ionic Liquid Approach to Separate CO₂ from Flue Gas.

3. Effective Absorption Mechanism of SO₂ and NO₂ in the Flue Gas by Ammonium-Bromide-Based Deep Eutectic Solvents.

4. Combined Experimental and Theoretical Study of the Competitive Absorption of CO₂ and NO₂ by a Superbase Ionic Liquid.

Review 5. Ionic Liquids Catalysis for Carbon Dioxide Conversion With Nucleophiles.

Highly Efficient Nitric Oxide Capture by Azole-Based Ionic Liquids through Multiple-Site Absorption.

1. Design and tuning of ionic liquid-based HNO donor through intramolecular hydrogen bond for efficient inhibition of tumor growth.

2. Combined Superbase Ionic Liquid Approach to Separate CO2 from Flue Gas.

3. Effective Absorption Mechanism of SO2 and NO2 in the Flue Gas by Ammonium-Bromide-Based Deep Eutectic Solvents.

4. Combined Experimental and Theoretical Study of the Competitive Absorption of CO2 and NO2 by a Superbase Ionic Liquid.

Review 5. Ionic Liquids Catalysis for Carbon Dioxide Conversion With Nucleophiles.

2. Combined Superbase Ionic Liquid Approach to Separate CO₂ from Flue Gas.

3. Effective Absorption Mechanism of SO₂ and NO₂ in the Flue Gas by Ammonium-Bromide-Based Deep Eutectic Solvents.

4. Combined Experimental and Theoretical Study of the Competitive Absorption of CO₂ and NO₂ by a Superbase Ionic Liquid.