Zhang Tuodi, Wang Yi, Zhang Yu, Wang Jianjun, Shen Yuxia . Research progress on clay mineral-based forming composite phase change material[J]. New Chemical Materials, 2021 , 49(12) : 50 -54 . DOI: 10.19817/j.cnki.issn 1006-3536.2021.12.011

[1] Zhang T,Zhang T,Zhang J,et al.Design of stearic acid/graphene oxide-attapulgite aerogel shapestabilized phase change materials with excellent thermophysical properties[J].Renewable Energy,2021,165:504-513.
[2] Wang X,Yu H,Li L,et al.Experimental assessment on a kind of composite wall incorporated with shape-stabilized phase change materials (SSPCMs)[J].Energy & Buildings,2016,128:567-574.
[3] Park J H,Kang Y,Lee J,et al.Analysis of walls of functional gypsum board added with porous material and phase change material to improve hygrothermal performance[J].Energy & Buildings,2019,183:803-816.
[4] Horpan M S,şahan N,Paksoy H,et al.Direct impregnation and characterization of colemanite/ulexite-Mg(OH)₂ paraffin based form-stable phase change composites[J].Solar Energy Materials & Solar Cells,2019,195:346-352.
[5] Sari A,Sharma R K,Hekimoglu G,et al.Preparation,characterization,thermal energy storage properties and temperature control performance of form-stabilized sepiolite based composite phase change materials[J].Energy and Buildings,2019,188:111-119.
[6] 何媚质,杨鲁伟,张振涛.有机-无机复合相变材料的研究进展[J].化工进展,2018,37(12):4709-4718.
[7] Huang X,Chen X,Li A,et al.Shape-stabilized phase change materials based on porous supports for thermal energy storage applications[J].Chemical Engineering Journal,2019.356:641-661.
[8] Li C,Xie B,Chen J,et al.Emerging mineral-coupled composite phase change materials for thermal energy storage[J].Energy Conversion and Management,2019,183:633-644.
[9] Li M,Shi J.Review on micropore grade inorganic porous medium based form stable composite phase change materials:preparation,performance improvement and effects on the properties of cement mortar[J].Construction and Building Materials,2019,194:287-310.
[10] Xu W,Chen Y,Zhang W,et al.Fabrication of graphene oxide/bentonite composites with excellent adsorption performances for toluidine blue removal from aqueous solution[J].Advanced Powder Technology,2019,30(3):493-501.
[11] Sari A.Thermal energy storage characteristics of bentonite-based composite PCMs with enhanced thermal conductivity as novel thermal storage building materials[J].Energy Conversion & Management,2016,117:132-141.
[12] Jeong S G,Chang S J,We S,et al.Energy efficient thermal storage montmorillonite with phase change material containing exfoliated graphite nanoplatelets[J].Solar Energy Materials and Solar Cells,2015,139:65-70.
[13] Li C,Fu L,Ouyang J,et al.Enhanced performance and interfacial investigation of mineral-based composite phase change materials for thermal energy storage[J].Scientific Reports,2013,3:1908.
[14] Wang Y,Zheng H,Feng H X,et al.Effect of preparation methods on the structure and thermal properties of stearic acid/activated montmorillonite phase change materials[J].Energy & Buildings,2012,47:467-473.
[15] Sarier N,Onder E,Ozaya S,et al.Preparation of phase change material-montmorillonite composites suitable for thermal energy storage[J].Thermochimica Acta,2011,524(1-2):39-46.
[16] Yi H,Zhan W,Zhao Y,et al.A novel core-shell structural montmorillonite nanosheets/stearic acid composite PCM for great promotion of thermal energy storage properties[J].Solar Energy Materials and Solar Cells,2018,192:57-64.
[17] Yi H,Ai Z,Zhao Y,et al.Design of 3D-network montmorillonite nanosheet/stearic acid shape-stabilized phase change materials for solar energy storage[J].Solar Energy Materials and Solar Cells,2020,204:110233.
[18] Wei X,Wang J.Study on application properties of modified montmorillonite as phase change material for energy storage[J].Advances in Polymer Technology,2018,37(3):857-868.
[19] Li M,Guo Q,Nutt S.Carbon nanotube/paraffin/montmorillonite composite phase change material for thermal energy storage[J].Solar Energy,2017,146:1-7.
[20] Xu B,Ma H,Lu Z,et al.Paraffin/expanded vermiculite composite phase change material as aggregate for developing lightweight thermal energy storage cement-based composites[J].Applied Energy,2015,160:358-367.
[21] Xie N,Luo J,Li Z,et al.Salt hydrate/expanded vermiculite composite as a form-stable phase change material for building energy storage[J].Solar Energy Materials and Solar Cells,2019,189:33-42.
[22] Zhang N,Yuan Y,Li T,et al.Study on thermal property of lauric-palmitic-stearic acid/vermiculite composite as form-stable phase change material for energy storage[J].Advances in Mechanical Engineering,2015,7(9):1-8.
[23] Wei H,Luo J,Li Z,et al.Preparation and characterization of capric-myristic-stearic acid eutectic mixture/modified expanded vermiculite composite as a form-stable phase change material[J].Applied Energy,2016,178:616-623.
[24] Zhang W,Zhang X,Huang X,et al.Preparation and characterization of capric-palmitic-stearic acid ternary eutectic mixture/expanded vermiculite composites as form-stabilized thermal energy storage materials[J].Journal of Materials Science and Technology,2018,34(2):379-386.
[25] Li X,Wei H,Lin X,et al.Preparation of stearic acid/modified expanded vermiculite composite phase change material with simultaneously enhanced thermal conductivity and latent heat[J].Solar Energy Materials and Solar Cells,2016,155:9-13.
[26] Liu F,Zhu J,Liu J,et al.Microstructure and characterization of capric-stearic acid/modified expanded vermiculite thermal storage composites[J].Journal of Wuhan University of Technology (Materials Science),2018,33(2):296-304.
[27] Wei H,Li X.Preparation and characterization of a lauric-myristic-stearic acid/Al₂O₃-loaded expanded vermiculite composite phase change material with enhanced thermal conductivity[J].Solar Energy Materials and Solar Cells,2017,166:1-8.
[28] Deng Y,Li J,Deng Y,et al.Supercooling suppression and thermal conductivity enhancement of Na₂HPO₄·12H₂O/expanded vermiculite form-stable composite phase change materials with alumina for heat storage[J].ACS Sustainable Chemistry and Engineering,2018,6(5):6792-6801.
[29] Wen R,Huang Z,Huang Y,et al.Synthesis and characterization of lauric acid/expanded vermiculite as form-stabilized thermal energy storage materials[J].Energy & Buildings,2016,116:677-683.
[30] Deng Y,Li H,Qian T,et al.Thermal conductivity enhancement of polyethylene glycol/expanded vermiculite shape-stabilized composite phase change materials with silver nanowire for thermal energy storage[J].Chemical Engineering Journal,2016.295:427-435.
[31] Li R,Zhu J,Zhou W,et al.Thermal properties of sodium nitrate-expanded vermiculite form-stable composite phase change materials[J].Materials & Design,2016,104:190-196.
[32] Liu S,Yang H.Composite of coal-series kaolinite and capric-lauric acid as form-stable phase-change material[J].Energy Technology,2015,3(1):77-83.
[33] Liu S,Yang H.Stearic acid hybridizing coal-series kaolin composite phase change material for thermal energy storage[J].Applied Clay Science,2014,101:277-281.
[34] Sari A.Fabrication and thermal characterization of kaolin-based composite phase change materials for latent heat storage in buildings[J].Energy and Buildings,2015,96:193-200.
[35] Memon S A,Lo T Y,Shi X,et al.Preparation,characterization and thermal properties of lauryl alcohol/kaolin as novel form-stable composite phase change material for thermal energy storage in buildings[J].Applied Thermal Engineering,2013,59(1-2):336-347.
[36] Li C,Fu L,Ouyang J,et al.Kaolinite stabilized paraffin composite phase change materials for thermal energy storage[J].Applied Clay Science,2015,115:212-220.
[37] Song S,Dong L,Zhang Y,et al.Lauric acid/intercalated kaolinite as form-stable phase change material for thermal energy storage[J].Energy,2014,76:385-389.
[38] Zhang X,Liu C,Rao Z,Experimental investigation on thermal management performance of electric vehicle power battery using composite phase change material[J].Journal of Cleaner Production,2018,201:916-924.
[39] Zuo X,Yan Z,Hou K,et al.Highly stable hierarchical porous nanosheet composite phase change materials for thermal energy storage[J].Applied Thermal Engineering,2019,163:114417.
[40] Li M,Wu Z,Kao H.Study on preparation,structure and thermal energy storage property of capric-palmitic acid/attapulgite composite phase change materials[J].Applied Energy,2011,88(9):3125-3132.
[41] Shi J,Li M.Synthesis and characterization of polyethylene glycol/modified attapulgite form-stable composite phase change material for thermal energy storage[J].Solar Energy,2020,205:62-73.
[42] Zhang H,Zhang L,Li Q,et al.Preparation and characterization of methyl palmitate/palygorskite composite phase change material for thermal energy storage in buildings[J].Construction and Building Materials,2019,226:212-219.
[43] Song S,Dong L,Chen S,et al.Stearic-capric acid eutectic/activated-attapulgiate composite as form-stable phase change material for thermal energy storage[J].Energy Conversion & Management,2014,81:306-311.
[44] Yang D,Peng F,Zhang H,et al.Preparation of palygorskite paraffin nanocomposite suitable for thermal energy storage[J].Applied Clay Science,2016,126:190-196.
[45] Wang Y,Song Y,Li S,et al.Thermophysical properties of three-dimensional palygorskite based composite phase change materials[J].Applied Clay Science,2020,184:105367.
[46] Liang W,Chen P,Sun H,et al.Innovative spongy attapulgite loaded with n-carboxylic acids as composite phase change materials for thermal energy storage[J].RSC Advances,2014,4(73):38535.