1.热能高效存储与利用

2.能量转换与存储材料

3.先进相变储能材料

1.贵州省科技计划项目：超高储热容量纤维素/MXene气凝胶复合相变材料设计与储热增强机理，10万元，2023.01-2025.12，主持，在研。

2.企业委托研发横向项目：新型柔性复合相变储能薄膜材料研发，30万元，2022.05-2024.05，主持，在研。

3.贵州省科技计划项目：氨基化改性对凹凸棒石复合相变储能材料的结晶行为和放热性能的影响研究，10万元，2021.04-2024.04，主持，结题。

4.贵州大学特岗基金项目：性能强化的矿物复合相变储能材料的多组分耦合机制及构效关系，60万元，2019.08-2022.08，主持，结题。

出版学术论著：高硫铝土矿脱硫工艺与技术，科学出版社，出版日期：2022-11，负责撰写第一章：高硫铝土矿概况。

2014年09月-2019年07月：中国地质大学（北京），材料科学与工程专业，博士研究生（硕博连读），博士学位

2010年09月-2014年07月：中国地质大学（北京），材料科学与工程专业，本科生，学士学位

2019年08月-今：贵州大学，材料与冶金学院，冶金工程系，专任教师

2019年08月-2022年8月：贵州大学一流学科特聘教授（B类），聘期考核合格

[1] Wu T, Wu D, Deng Y^*, et al. Three-dimensional network-based composite phase change materials: Construction, structure, performance and applications [J]. Renewable and Sustainable Energy Reviews, 2024, 199: 114480. (中科院一区，IF=16.3)

[2] Zheng J, Deng Y*, Liu Y , et al. Paraffin/polyvinyl alcohol/MXene flexible phase change composite films for thermal management applications [J]. Chemical Engineering Journal, 2023, 453: 139727. (中科院一区，IF=13.3)

[3] Wang H, Deng Y*, Wu F, et al. Effect of dopamine-modified expanded vermiculite on phase change behavior and heat storage characteristic of polyethylene glycol [J]. Chemical Engineering Journal, 2021, 415(8): 128992. (中科院一区，IF=13.3)

[4] Wang H, Deng Y*, Liu Y, et al. In situ preparation of light-driven cellulose-Mxene aerogels based composite phase change materials with simultaneously enhanced light-to-heat conversion, heat transfer and heat storage [J]. Composites Part A: Applied Science and Manufacturing, 2022, 155: 106853.

[5] Lu J, Deng Y*, Luo D*, et al. Preparation and performance enhancement of MXene/Na₂HPO₄·12H₂O@SiO₂ phase change microcapsule [J]. Journal of Energy Storage, 2024, 91: 112079.

[6] Liu Y, Luo D, Deng Y*, et al. ZIF-67@MXene structure synergistically improve heat storage and photothermal conversion of phase change material [J]. Journal of Energy Storage, 2023, 67: 107641.

[7] Liu Y, Zheng J, Deng Y*, et al. Effect of functional modification of porous medium on phase change behavior and heat storage characteristics of form-stable composite phase change materials: A critical review [J]. Journal of Energy Storage, 2021, 44: 103637.

[8] Deng Y*. Effect of Ag nanowires on crystallization behavior of polyethylene glycol/expanded vermiculite composite phase change material [J]. Journal of Energy Storage, 2021, 34: 102223.

[9] Wang H, Deng Y*, Wu F, et al. Facile in-situ fabrication of latent heat enhanced cellulose aerogel-based form-stable composite phase change materials based on dopamine modification strategy [J]. Solar Energy Materials and Solar Cells, 2021, 230: 111236.

[10] Liu Y, Deng Y*, Zheng J, et al. Role and influence of hydrogen bonds in composite phase change materials: A critical review [J]. Solar Energy Materials and Solar Cells, 2022, 248: 112031.

[11] Liu Y, Deng Y*, Zheng J, et al. Micro mechanism of latent heat enhancement of polyethylene glycol/aminated modified palygorskite composite phase change materials [J]. Applied Clay Science, 2022, 228: 106641.

[12] Zheng J, Deng Y*, Luo D*, et al. Preparation and performance enhancement of n-eicosane/polyvinyl alcohol/MXene flexible phase change composites with sandwich structure [J]. Composite Structures, 2024, 331: 117930.

[13] Sun S, Deng Y*, Luo D*, et al. Porous carbonated wood/polyethylene glycol/MXene phase change composites: preparation, structure and performances [J]. Journal of Materials Science, 2024, 59: 13843-13855.

[14] Wang H, Lei J, Wu T, Wu D, Liu H, Deng Y*, Wu F. Effect of Boron Nitride on the Heat Transfer and Heat Storage of Poly(ethylene glycol)/Expanded Vermiculite Composite Phase-Change Materials [J]. ACS Omega, 2022, 7(2): 2438-2443.