1、主要论文 [1] Wei Lin, Jielin Zeng, Zhengang Gao, Ying Wang, Chenyang Tang, Jiaji Cheng*(通讯作者). Phosphoric acid derivatives and metal hydroxide complexes filled TiO2 nanotubes modified phase change microcapsules for enhancing fire safety and energy management. Applied Thermal Engineering, 2025, 264, 125465. [2] Wei Lin , Jielin Zeng , Zhengang Gao , Ying Wang , Jiaji Cheng*(通讯作者), Yapeng Wang , Shaoxiang Li. Double-layered phase change material microcapsules with enhanced solar thermal conversion performance and fire safety for buildings. Construction and Building Materials, 2024, 449, 138487. [3] Wei Lin, Chenchen Liang, Jielin Zeng, Jiaji Cheng*(通讯作者), Yapeng Wang, Feng Zhang, Shaoxiang Li. Preparation and characterization of double-shell phase change material microcapsules with flame retardancy and temperature regulation capability as low-emission building fillers. Journal of Building Engineering, 2024, 89, 109257. [4] Wei Lin, Jiaji Cheng*(通讯作者), Chenchen Liang, Jielin Zeng, Xiaogang Yang. Phase change material microcapsules doped with phosphorus-based flame retardant filled titanium dioxide nanotubes for enhancing the energy storage and temperature regulation performance of buildings. International Journal of Heat and Mass Transfer, 2024, 225, 125432. [5] Jiaji Cheng*(通讯作者), Chenchen Liang, Wei Lin, Jielin Zeng, Chaojie Li, Shaoxiang Li, Feng Zhang, Yapeng Wang *. Preparation and characterization of phase change material microcapsules with carbon nanotubes loaded with Mg–Al layered double hydroxides for controlling temperature in the building. Journal of Energy Storage, 2024, 80, 110357. [6] Moyun Kang, Wei Lin, Chenchen Liang, Jielin Zeng, Yapeng Wang, Yu Guan, Jiaji Cheng *(通讯作者). Construction of ammonium polyphosphate-modified halloysite nanotubes on phase change material microcapsules for the enhancement of thermophysical performance and flame retardant properties. Applied Thermal Engineering, 2024, 239, 122160. [7] Wei Lin, Jielin Zeng, Chenchen Liang, Jiaji Cheng *(通讯作者), Yapeng Wang, Wenjuan Qu, Chaojie Li, Yu Guan, Shaoxiang Li. The synthesis and characterization of phase change material microcapsules with titanium oxide nanotubes for thermal energy regulation. Applied Thermal Engineering, 2024, 236, 121703. [8] Yuqi Liu, Moyun Kang, Wei Lin, Chenchen Liang, Wenjuan Qu, Yapeng Wang, Yu Guan, Jiaji Cheng* (通讯作者). Enhanced thermal performance of phase change material microcapsules using halloysite nanotubes. Applied Thermal Engineering, 2023, 231, 120965. [9] Moyun Kang, Yuqi Liu, Wei Lin, Chenchen Liang, Wenjuan Qu, Shaoxiang Li, Yapeng Wang, Feng Zhang, Jiaji Cheng* (通讯作者). Thermal comfort and flame retardant performance of novel temperature-control coatings with modified phase change material microcapsules. Progress in Organic Coatings, 2023, 181, 107579. [10] Moyun Kang, Yuqi Liu, Chenchen Liang, Wei Lin, Changxiang Wang, Chaojie Li, Feng Zhang, Jiaji Cheng* (通讯作者). Phase change material microcapsules with DOPO/Cu modified halloysite nanotubes for thermal controlling of buildings: Thermophysical properties, flame retardant performance and thermal comfort levels. International Journal of Heat and Mass Transfer, 2023, 207, 124045. [11] Shaoshuai Niu, Moyun Kang, Yuqi Liu, Chenchen Liang, Yiqiang Zhao, Jiaji Cheng* (通讯作者). The preparation and characterization of phase change material microcapsules with multifunctional carbon nanotubes for controlling temperature. Energy, 2023, 268, 126652. [12] Moyun Kang, Yuqi Liu, Wei Lin, Chenchen Liang, Jiaji Cheng* (通讯作者). The thermal behavior and flame retardant performance of phase change material microcapsules with halloysite nanotube. Journal of Energy Storage, 2023, 60, 106632. [13] Jiaji Cheng* (通讯作者), Moyun Kang, Wei Lin, Chenchen Liang, Yuqi Liu, Yapeng Wang, Shaoshuai Niu, Feng Zhang*. Preparation and characterization of phase change material microcapsules with modified halloysite nanotube for controlling temperature in the building. Construction and Building Materials, 2023, 362, 129764. [14] Jiaji Cheng* (通讯作者), Moyun Kang, Yuqi Liu, Shaoshuai Niu, Yu Guan, Wenjuan Qu, Shaoxiang Li*. The preparation and characterization of thermal expansion capric acid microcapsules for controlling temperature. Energy, 2022, 261, 125296. [15] Jiaji Cheng*(通讯作者), Yuqi Liu, Moyun Kang, Shaoshuai Niu, Yapeng Wang, Yu Guan, Feng Zhang*. The thermal energy storage capacity and fire risk of phase change material based on the framework of modified melamine sponge. Polymer for Advanced Technologies, 2022, 33(10), 3279-3285. [16] Shaoshuai Niu, Jiaji Cheng*(通讯作者), Yiqiang Zhao, et al. Preparation and characterization of multifunctional phase change material microcapsules with modified carbon nanotubes for improving the thermal comfort level of buildings. Construction and Building Materials, 2022, 347, 128628. (中科院一区,IF=7.693) [17] Jiaji Cheng*(通讯作者), Shaoshuai Niu, Yiqiang Zhao, et al, The flame retardant and thermal conductivity properties of high thermal conductivity expandable graphite microcapsule filled natural rubber composites, Construction and Building Materials, 2022, 318, 125998. [18] Jiaji Cheng*(通讯作者), Shaoshuai Niu, Moyun Kang, et al, The thermal behavior and flame retardant performance of phase change material microcapsules with modified carbon nanotubes, Energy, 2022, 240: 122821. [19] Jiaji Cheng*(通讯作者), Yue Zhou, Dan Ma, Shao-Xiang Li*, et al, Preparation and characterization of carbon nanotube microcapsule phase change materials for improving thermal comfort level of buildings, Construction and Building Materials, 2020, 244, 118388. [20] Jiaji Cheng*(通讯作者), Shao-Xiang Li*, Wen-Juan Qu, Dong Wang, et al, Preparation of zeolitic imidazolate frameworks and their application as flame retardant and smoke suppression agent for rigid polyurethane foams, Polymers, 2020, 12(2): 347. [21] Jiaji Cheng*(通讯作者), Shaoshuai Niu, Dan Ma, Yue Zhou, et al, Effects of ammonium polyphosphate microencapsulated on flame retardant and mechanical properties of the rigid polyurethane foam, Journal of Applied Polymer Science, 2020, 137(48): 49591. [22] Shaoxiang Li, Yue Zhou, Jiaji Cheng*(通讯作者), et al, Mechanical property improvement and fire hazard reduction of ammonium polyphosphate microencapsulated in rigid polyurethane foam, Journal of Applied Polymer Science, 2020, 137(4): 48307. [23] Jiaji Cheng*(通讯作者), Shaoxiang Li*, Feng Zhang, Yong Wang, et al, Effects of the recycled poly(ethylene terephthalate) fibers on the rigid polyurethane foam, Journal of Applied Polymer Science, 2019, 136(28): 47758. [24] Jiaji Cheng, Haodong Wang, Xu Wang, Shaoxiang Li*, Effects of flame‐retardant ramie fiber on enhancing performance of the rigid polyurethane foams, Polymer for Advanced Technologies, 2019, 30(12): 3091-3098. [25] Jiaji Cheng*(通讯作者), Wenjuan Qu, Shaohua Sun, Mechanical properties improvement and fire hazard reduction of expandable graphite microencapsulated in rigid polyurethane foams, Polymer Composites, 2019, 40(S2): 1006-1014. [26] Jiaji Cheng*(通讯作者), Shaohua Sun, Investigation on the fire hazard of hybrid polymer materials based on the test of smoke toxicity, Journal of Thermal Analysis and Calorimetry, 2019, 135(4): 2347-2357. [27] Jiaji Cheng*(通讯作者), Wenjuan Qu; Shaohua Sun, Effects of flame-retardant flax-fiber on enhancing performance of the rigid polyurethane foams, Journal of Applied Polymer Science, 2018, 135(7): 46436. [28] Jiaji Cheng; Fubao Zhou*, Influence of expandable graphite on flame retardancy and mechanical properties of organic–inorganic hybrid material based on sodium silicate and polyisocyanate, Journal of Thermal Analysis and Calorimetry, 2016, 126(3): 1417-1426. [29] Jiaji Cheng, Fubao Zhou*, Flame-retardant properties of sodium silicate/polyisocyanate organic–inorganic hybrid material, Journal of Thermal Analysis and Calorimetry, 2016, 125(2): 913-918 [30] Jiaji Cheng, Fubao Zhou*, Bobo Shi, et al, Effects of inorganic fillers on the flame‐retardant and mechanical properties of rigid polyurethane foams, Journal of Applied Polymer Science, 2014, 131(10): 376-418. [31] 程家骥; 王旭; 王浩东. 聚脲材料包覆可膨胀石墨微胶囊阻燃天然橡胶, 复合材料学报, 2021, 38(1): 232-238. 2、授权专利 [1] 矿用延缓发泡型聚合物封孔材料, 2013, ZL201310072778.9. [2] 一种无损治理煤田火区的液氮系统及方法, 2017, ZL201510262390.4. [3] 一种应对火灾场景的隔热复合材料及其制备方法和应用, 2019, ZL201910849296.7. [4] 一种发泡型杂化高分子堵漏材料及其制备方法, 2021, ZL 201910360756.X. [5] 一种高导热可膨胀石墨微胶囊及其制备方法和应用, 2022, ZL 202110816006.6. [6] 一种钴-硫化钼复合阻燃剂、防火涂料及它们的制备方法, 2022, ZL 20211080790.5. [7]一种基于磺胺-银化合物的抗菌型防火涂料及其制备方法, 2022, ZL 202111559191.1. [8]一种磺胺-银化合物掺杂石墨烯锌粉重防腐涂料及其制备方法, 2022, ZL 202210047690.0. [9] 一种改性纤维素纳米晶及制备方法和基于改性纤维素纳米晶的防腐涂料, 2023, ZL 202111186816.4. [10] 一种基于改性笼型倍半硅氧烷的高闪点防火涂料及其制备方法, 2023, ZL 202310137319.8 |
