Adamantane-Based Micro- and Ultra-Microporous Frameworks for Efficient Small Gas and Toxic Organic Vapor Adsorption

Microporous organic polymers and related porous materials have been applied in a wide range of practical applications such as adsorption, catalysis, adsorption, and sensing fields. However, some limitations, like wide pore size distribution, may limit their further applications, especially for adsor...

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Published in	Polymers Vol. 11; no. 3; p. 486
Main Authors	Jiang, Wenzhao, Yue, Hangbo, Shuttleworth, Peter S, Xie, Pengbo, Li, Shanji, Guo, Jianwei
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 13.03.2019 MDPI
Subjects	adamantane Adsorption Alkynes Benzene Carbon dioxide Coupling (molecular) Hexanes Hydrocarbons organic framework Outdoor air quality Polymers Pore size Pore size distribution Porous materials Scanning electron microscopy Sonogashira-Hagihara coupling Surface area Surface chemistry Thermal stability ultra-microporosity Beijing China China Germany adamantane adsorption ultra-microporosity organic framework Sonogashira-Hagihara coupling
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Abstract	Microporous organic polymers and related porous materials have been applied in a wide range of practical applications such as adsorption, catalysis, adsorption, and sensing fields. However, some limitations, like wide pore size distribution, may limit their further applications, especially for adsorption. Here, micro- and ultra-microporous frameworks (HBPBA-D and TBBPA-D) were designed and synthesized via Sonogashira⁻Hagihara coupling of six/eight-arm bromophenyl adamantane-based "knots" and alkynes-type "rod" monomers. The BET surface area and pore size distribution of these frameworks were in the region of 395⁻488 m² g , 0.9⁻1.1 and 0.42 nm, respectively. The as-made prepared frameworks also showed good chemical ability and high thermal stability up to 350 °C, and at 800 °C only 30% mass loss was observed. Their adsorption capacities for small gas molecules such as CO₂ and CH₄ was 8.9⁻9.0 wt % and 1.43⁻1.63 wt % at 273 K/1 bar, and for the toxic organic vapors n-hexane and benzene, 104⁻172 mg g and 144⁻272 mg g at 298 K/0.8 bar, respectively. These are comparable to many porous polymers with higher BET specific surface areas or after functionalization. These properties make the resulting frameworks efficient absorbent alternatives for small gas or toxic vapor capture, especially in harsh environments.
AbstractList	Microporous organic polymers and related porous materials have been applied in a wide range of practical applications such as adsorption, catalysis, adsorption, and sensing fields. However, some limitations, like wide pore size distribution, may limit their further applications, especially for adsorption. Here, micro- and ultra-microporous frameworks (HBPBA-D and TBBPA-D) were designed and synthesized via Sonogashira⁻Hagihara coupling of six/eight-arm bromophenyl adamantane-based "knots" and alkynes-type "rod" monomers. The BET surface area and pore size distribution of these frameworks were in the region of 395⁻488 m² g , 0.9⁻1.1 and 0.42 nm, respectively. The as-made prepared frameworks also showed good chemical ability and high thermal stability up to 350 °C, and at 800 °C only 30% mass loss was observed. Their adsorption capacities for small gas molecules such as CO₂ and CH₄ was 8.9⁻9.0 wt % and 1.43⁻1.63 wt % at 273 K/1 bar, and for the toxic organic vapors n-hexane and benzene, 104⁻172 mg g and 144⁻272 mg g at 298 K/0.8 bar, respectively. These are comparable to many porous polymers with higher BET specific surface areas or after functionalization. These properties make the resulting frameworks efficient absorbent alternatives for small gas or toxic vapor capture, especially in harsh environments. Microporous organic polymers and related porous materials have been applied in a wide range of practical applications such as adsorption, catalysis, adsorption, and sensing fields. However, some limitations, like wide pore size distribution, may limit their further applications, especially for adsorption. Here, micro- and ultra-microporous frameworks (HBPBA-D and TBBPA-D) were designed and synthesized via Sonogashira–Hagihara coupling of six/eight-arm bromophenyl adamantane-based “knots” and alkynes-type “rod” monomers. The BET surface area and pore size distribution of these frameworks were in the region of 395–488 m 2 g −1 , 0.9–1.1 and 0.42 nm, respectively. The as-made prepared frameworks also showed good chemical ability and high thermal stability up to 350 °C, and at 800 °C only 30% mass loss was observed. Their adsorption capacities for small gas molecules such as CO 2 and CH 4 was 8.9–9.0 wt % and 1.43–1.63 wt % at 273 K/1 bar, and for the toxic organic vapors n-hexane and benzene, 104–172 mg g −1 and 144–272 mg g −1 at 298 K/0.8 bar, respectively. These are comparable to many porous polymers with higher BET specific surface areas or after functionalization. These properties make the resulting frameworks efficient absorbent alternatives for small gas or toxic vapor capture, especially in harsh environments. Microporous organic polymers and related porous materials have been applied in a wide range of practical applications such as adsorption, catalysis, adsorption, and sensing fields. However, some limitations, like wide pore size distribution, may limit their further applications, especially for adsorption. Here, micro- and ultra-microporous frameworks (HBPBA-D and TBBPA-D) were designed and synthesized via Sonogashira-Hagihara coupling of six/eight-arm bromophenyl adamantane-based "knots" and alkynes-type "rod" monomers. The BET surface area and pore size distribution of these frameworks were in the region of 395-488 m2 g−1, 0.9-1.1 and 0.42 nm, respectively. The as-made prepared frameworks also showed good chemical ability and high thermal stability up to 350 °C, and at 800 °C only 30% mass loss was observed. Their adsorption capacities for small gas molecules such as CO2 and CH4 was 8.9-9.0 wt % and 1.43-1.63 wt % at 273 K/1 bar, and for the toxic organic vapors n-hexane and benzene, 104-172 mg g−1 and 144-272 mg g−1 at 298 K/0.8 bar, respectively. These are comparable to many porous polymers with higher BET specific surface areas or after functionalization. These properties make the resulting frameworks efficient absorbent alternatives for small gas or toxic vapor capture, especially in harsh environments.
Author	Li, Shanji Yue, Hangbo Shuttleworth, Peter S Guo, Jianwei Xie, Pengbo Jiang, Wenzhao
AuthorAffiliation	2 Department of Polymer Physics, Elastomers and Energy, Institute of Polymer Science and Technology, CSIC, 28006 Madrid, Spain; peter@ictp.csic.es 1 School of Chemical Engineering & Light Industry, Guangdong University of Technology, Guangzhou 510006, China; jwz.max@foxmail.com 3 Guangzhou Institute of Technology, Guangzhou 510075, China; xpbty@21cn.com (P.X.); hnlsj2004@163.com (S.L.)
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Copyright	2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2019 by the authors. 2019
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SubjectTerms	adamantane Adsorption Alkynes Benzene Carbon dioxide Coupling (molecular) Hexanes Hydrocarbons organic framework Outdoor air quality Polymers Pore size Pore size distribution Porous materials Scanning electron microscopy Sonogashira-Hagihara coupling Surface area Surface chemistry Thermal stability ultra-microporosity
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Title	Adamantane-Based Micro- and Ultra-Microporous Frameworks for Efficient Small Gas and Toxic Organic Vapor Adsorption
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