A preliminary study of functional coating material of polypropylene itaconate incorporated with [Cu3(BTC)2] MOF as CO2 adsorbent

[Display omitted] •The study aims to investigate [Cu3(BTC)2] incorporated into polypropylene itaconate as CO2 adsorbent coating material.•The addition of [Cu3(BTC)2] into PPIA should not more than 20% (w/w) as the coating turned from smooth to coarser surface.•The adsorption of CO2 can reach 84% of...

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Published in	Progress in organic coatings Vol. 101; pp. 537 - 542
Main Authors	Wibowo, Atmanto Heru, Lestari, Witri Wahyu, Teteki, Fitriana Jati, Krisnandi, Yuni Krisyuningsih, Suratman, Adhitasari
Format	Journal Article
Language	English
Published	Elsevier B.V 01.12.2016
Subjects	[Cu3(BTC)2] MOF Absorption Adsorbents Adsorption Carbon dioxide CO2 adsorption Coating Coating film Polypropylenes PPIA Surface chemistry Thermal stability PPIA CO2 adsorption Coating film [Cu3(BTC)2] MOF
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Abstract	[Display omitted] •The study aims to investigate [Cu3(BTC)2] incorporated into polypropylene itaconate as CO2 adsorbent coating material.•The addition of [Cu3(BTC)2] into PPIA should not more than 20% (w/w) as the coating turned from smooth to coarser surface.•The adsorption of CO2 can reach 84% of the [Cu3(BTC)2] MOF for only 20% content of MOF.•The thermal stability of the PPIA coating decreased as the [Cu3(BTC)2] content in the PPIA increased.•The color turning from the yellowish viscous liquid into blue opaque surface after incorporation remains a problem. The introduction of CO2 adsorbent of [Cu3(BTC)2] into coating material of polypropylene itaconate (PPIA) eventually opens up further investigation of the functional coating related to the air or gas adjustment. This paper presents the fabrication of functional coating materials based on PPIA modified with [Cu3(BTC)2]. Thermal stability, surface morphology, and the CO2-absorption ability of the obtained materials are investigated. The color of the coating film turned from the yellowish viscous liquid into blue opaque surface after incorporation of [Cu3(BTC)2]. For the best application of the coating material of PPIA, incorporation of [Cu3(BTC)2] into PPIA should not more than 20% (w/w), as the coating turned from a smooth surface to a coarser surface and a rigid form. The thermal stability of the PPIA coating decreased as the [Cu3(BTC)2] content in the PPIA increased. The content of 1–5% [Cu3(BTC)2] affected the significant CO2 adsorption on the coating, in which no significant CO2 response of the PPIA was seen with the absence of MOF on the coating materials. Above 10%, the CO2 adsorption of the coating was more than 50% of the adsorption value of [Cu3(BTC)2] MOF only. With the incorporation of 20%, the CO2 absorption reached about 84% of the absorption value of [Cu3(BTC)2] MOF. This study proved that the PPIA coating incorporating [Cu3(BTC)2] MOF could afford a coating material with a function to adsorb CO2 gas.
AbstractList	The introduction of CO2 adsorbent of [Cu3(BTC)2] into coating material of polypropylene itaconate (PPIA) eventually opens up further investigation of the functional coating related to the air or gas adjustment. This paper presents the fabrication of functional coating materials based on PPIA modified with [Cu3(BTC)2]. Thermal stability, surface morphology, and the CO2-absorption ability of the obtained materials are investigated. The color of the coating film turned from the yellowish viscous liquid into blue opaque surface after incorporation of [Cu3(BTC)2]. For the best application of the coating material of PPIA, incorporation of [Cu3(BTC)2] into PPIA should not more than 20% (w/w), as the coating turned from a smooth surface to a coarser surface and a rigid form. The thermal stability of the PPIA coating decreased as the [Cu3(BTC)2] content in the PPIA increased. The content of 1-5% [Cu3(BTC)2] affected the significant CO2 adsorption on the coating, in which no significant CO2 response of the PPIA was seen with the absence of MOF on the coating materials. Above 10%, the CO2 adsorption of the coating was more than 50% of the adsorption value of [Cu3(BTC)2] MOF only. With the incorporation of 20%, the CO2 absorption reached about 84% of the absorption value of [Cu3(BTC)2] MOF. This study proved that the PPIA coating incorporating [Cu3(BTC)2] MOF could afford a coating material with a function to adsorb CO2 gas. [Display omitted] •The study aims to investigate [Cu3(BTC)2] incorporated into polypropylene itaconate as CO2 adsorbent coating material.•The addition of [Cu3(BTC)2] into PPIA should not more than 20% (w/w) as the coating turned from smooth to coarser surface.•The adsorption of CO2 can reach 84% of the [Cu3(BTC)2] MOF for only 20% content of MOF.•The thermal stability of the PPIA coating decreased as the [Cu3(BTC)2] content in the PPIA increased.•The color turning from the yellowish viscous liquid into blue opaque surface after incorporation remains a problem. The introduction of CO2 adsorbent of [Cu3(BTC)2] into coating material of polypropylene itaconate (PPIA) eventually opens up further investigation of the functional coating related to the air or gas adjustment. This paper presents the fabrication of functional coating materials based on PPIA modified with [Cu3(BTC)2]. Thermal stability, surface morphology, and the CO2-absorption ability of the obtained materials are investigated. The color of the coating film turned from the yellowish viscous liquid into blue opaque surface after incorporation of [Cu3(BTC)2]. For the best application of the coating material of PPIA, incorporation of [Cu3(BTC)2] into PPIA should not more than 20% (w/w), as the coating turned from a smooth surface to a coarser surface and a rigid form. The thermal stability of the PPIA coating decreased as the [Cu3(BTC)2] content in the PPIA increased. The content of 1–5% [Cu3(BTC)2] affected the significant CO2 adsorption on the coating, in which no significant CO2 response of the PPIA was seen with the absence of MOF on the coating materials. Above 10%, the CO2 adsorption of the coating was more than 50% of the adsorption value of [Cu3(BTC)2] MOF only. With the incorporation of 20%, the CO2 absorption reached about 84% of the absorption value of [Cu3(BTC)2] MOF. This study proved that the PPIA coating incorporating [Cu3(BTC)2] MOF could afford a coating material with a function to adsorb CO2 gas.
Author	Lestari, Witri Wahyu Krisnandi, Yuni Krisyuningsih Suratman, Adhitasari Wibowo, Atmanto Heru Teteki, Fitriana Jati
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Snippet	[Display omitted] •The study aims to investigate [Cu3(BTC)2] incorporated into polypropylene itaconate as CO2 adsorbent coating material.•The addition of... The introduction of CO2 adsorbent of [Cu3(BTC)2] into coating material of polypropylene itaconate (PPIA) eventually opens up further investigation of the...
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SubjectTerms	[Cu3(BTC)2] MOF Absorption Adsorbents Adsorption Carbon dioxide CO2 adsorption Coating Coating film Polypropylenes PPIA Surface chemistry Thermal stability
Title	A preliminary study of functional coating material of polypropylene itaconate incorporated with [Cu3(BTC)2] MOF as CO2 adsorbent
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