Encapsulation of Phase Change Materials Using Layer-by-Layer Assembled Polyelectrolytes

Encapsulation of Phase Change Materials Using Layer-by-Layer Assembled Polyelectrolytes

Phase change materials absorb the thermal energy when changing their phases (e.g., solid-to-liquid) at constant temperatures to achieve the latent heat storage. The major drawbacks such as limited thermal conductivity and leakage prevent the PCMs from wide application in desired areas. In this work,...

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Main Authors: Qiangying Yi, Gleb B. Sukhorokov, Jin Ma, Xiaobo Yang, Zhongwei Gu
Format: Article
Language:English
Published: Hindawi Limited 2015-01-01
Series:International Journal of Polymer Science
Online Access:http://dx.doi.org/10.1155/2015/756237
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spelling doaj-b70e9bff258d4ba7971fc624c8734d132020-11-24T23:03:39ZengHindawi LimitedInternational Journal of Polymer Science1687-94221687-94302015-01-01201510.1155/2015/756237756237Encapsulation of Phase Change Materials Using Layer-by-Layer Assembled PolyelectrolytesQiangying Yi0Gleb B. Sukhorokov1Jin Ma2Xiaobo Yang3Zhongwei Gu4National Engineering Research Center for Biomaterials, Sichuan University, 29 Wangjiang Road, Chengdu 610064, ChinaSchool of Engineering and Materials Science, Queen Mary University of London, Mile End Road, London E1 4NS, UKNational Engineering Research Center for Biomaterials, Sichuan University, 29 Wangjiang Road, Chengdu 610064, ChinaSchool of Engineering and Materials Science, Queen Mary University of London, Mile End Road, London E1 4NS, UKNational Engineering Research Center for Biomaterials, Sichuan University, 29 Wangjiang Road, Chengdu 610064, ChinaPhase change materials absorb the thermal energy when changing their phases (e.g., solid-to-liquid) at constant temperatures to achieve the latent heat storage. The major drawbacks such as limited thermal conductivity and leakage prevent the PCMs from wide application in desired areas. In this work, an environmentally friendly and low cost approach, layer-by-layer (LbL) assembly technique, was applied to build up ultrathin shells to encapsulate the PCMs and therefore to regulate their changes in volume when the phase change occurs. Generally, the oppositely charged strong polyelectrolytes Poly(diallyldimethylammonium chloride) (PDADMAC) and Poly(4-styrenesulfonic acid) sodium salt (PSS) were employed to fabricate multilayer shells on emulsified octadecane droplets using either bovine serum albumin (BSA) or sodium dodecyl sulfate (SDS) as surfactant. Specifically, using BSA as the surfactant, polyelectrolyte encapsulated octadecane spheres in size of ∼500 nm were obtained, with good shell integrity, high octadecane content (91.3% by mass), and good thermal stability after cycles of thermal treatments.http://dx.doi.org/10.1155/2015/756237
collection DOAJ
language English
format Article
sources DOAJ
author Qiangying Yi
Gleb B. Sukhorokov
Jin Ma
Xiaobo Yang
Zhongwei Gu
spellingShingle Qiangying Yi
Gleb B. Sukhorokov
Jin Ma
Xiaobo Yang
Zhongwei Gu
Encapsulation of Phase Change Materials Using Layer-by-Layer Assembled Polyelectrolytes
International Journal of Polymer Science
author_facet Qiangying Yi
Gleb B. Sukhorokov
Jin Ma
Xiaobo Yang
Zhongwei Gu
author_sort Qiangying Yi
title Encapsulation of Phase Change Materials Using Layer-by-Layer Assembled Polyelectrolytes
title_short Encapsulation of Phase Change Materials Using Layer-by-Layer Assembled Polyelectrolytes
title_full Encapsulation of Phase Change Materials Using Layer-by-Layer Assembled Polyelectrolytes
title_fullStr Encapsulation of Phase Change Materials Using Layer-by-Layer Assembled Polyelectrolytes
title_full_unstemmed Encapsulation of Phase Change Materials Using Layer-by-Layer Assembled Polyelectrolytes
title_sort encapsulation of phase change materials using layer-by-layer assembled polyelectrolytes
publisher Hindawi Limited
series International Journal of Polymer Science
issn 1687-9422
1687-9430
publishDate 2015-01-01
description Phase change materials absorb the thermal energy when changing their phases (e.g., solid-to-liquid) at constant temperatures to achieve the latent heat storage. The major drawbacks such as limited thermal conductivity and leakage prevent the PCMs from wide application in desired areas. In this work, an environmentally friendly and low cost approach, layer-by-layer (LbL) assembly technique, was applied to build up ultrathin shells to encapsulate the PCMs and therefore to regulate their changes in volume when the phase change occurs. Generally, the oppositely charged strong polyelectrolytes Poly(diallyldimethylammonium chloride) (PDADMAC) and Poly(4-styrenesulfonic acid) sodium salt (PSS) were employed to fabricate multilayer shells on emulsified octadecane droplets using either bovine serum albumin (BSA) or sodium dodecyl sulfate (SDS) as surfactant. Specifically, using BSA as the surfactant, polyelectrolyte encapsulated octadecane spheres in size of ∼500 nm were obtained, with good shell integrity, high octadecane content (91.3% by mass), and good thermal stability after cycles of thermal treatments.
url http://dx.doi.org/10.1155/2015/756237
work_keys_str_mv AT qiangyingyi encapsulationofphasechangematerialsusinglayerbylayerassembledpolyelectrolytes
AT glebbsukhorokov encapsulationofphasechangematerialsusinglayerbylayerassembledpolyelectrolytes
AT jinma encapsulationofphasechangematerialsusinglayerbylayerassembledpolyelectrolytes
AT xiaoboyang encapsulationofphasechangematerialsusinglayerbylayerassembledpolyelectrolytes
AT zhongweigu encapsulationofphasechangematerialsusinglayerbylayerassembledpolyelectrolytes
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