职务：教学实验中心主任
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  李 妍 副教授 (FGA, CGC, GIC)珠宝学院实验教学中心副主任
  研究方向：琥珀产地溯源，多材料和微纳结构3D打印
  招生信息：
  1、宝石学方向、材料、化学、物理、矿物等相关学科；
  2、欢迎广大对科研有深厚的兴趣和热情的同学们积极报考！
  地址：中国地质大学(武汉)珠宝学院612
  E-mail：yanli@cug.edu.cn; Phone：+86**; Tel：
  教育背景
  2004. 09-2008.06 中国地质大学(北京)宝石与材料工艺学 工学学士
  2008. 09-2011.06 中国地质大学(北京)矿物学矿床岩石学 理学硕士 (全奖)
  2012. 09-2016.11 伦敦大学 材料科学 博士毕业 (全奖)
  专业技能
  · 职业资格证书: GIC宝石检验员，GIC钻石检验员
  · 国家珠宝玉石质量检验师执业资格证书(编号：京-2010-S-025, 合格人员编号：HG **)
  · FGA宝石协会鉴定师证书 (Pass with Merit，理论测试A实践测试A,证书编号：100/2778/6)
  · 外语水平：CET-6 623，英语专业八级
  主持科研项目
  1. 国家自然基金青年项目，“3D打印石墨烯复合材料功能梯度结构设计与吸波性能优化研究”；No.**，2020/01/01-2022/12/31，主持，25万
  2. 中央高校基本科研业务费-杰出人才培育基金项目，“石墨烯增强生物基光敏树脂在增材制造技术成形上的研究”； No. CUG170677，2017/09-2020/09，主持，30万
  3. 湖北省自然基金青年项目《基于水处理的累托石和活性炭负载TiO2三维梯度多孔结构的调控及稳定机制研究》，No. 2019 CFB264, 2019/07-2020/07，主持，5万
  4. 校级项目《缅甸、墨西哥和多米尼加蓝珀“荧光跳色”差异性研究》，主持，5万元，在研
  参与科研项目
  5. 国家自然基金中英国际交流合作项目1项《面向可持续发展的多矿物材料增材制造与数字化设计，No.
  6. 横向项目《生物基可穿戴 3D 打印光敏树脂材料研究》，15万，骨干参与，已结题
  7. 国家重点研发计划项目/子课题，《资源类及高值产品产地溯源、掺假识别技术研究》，No. 2018YFF**，骨干参与，260万，在研
  8. 横向项目《贵金属3D打印在高端珠宝首饰定制中的应用研究》，30万，排名第二，在研
  9. 参与1项与深圳马斯海瑞有限公司合作项目《指圈测量设备及3D打印首饰开发》(No.2)。
  10. 英国TSB项目NanoSynth project: Graphene-Reinforced Epoxies for High Performance Applications ( No. 101257), http://www.nanosynthproject.org.uk/，1百万英镑，骨干参与，已结题(博士课题).
  11. 欧盟合作项目Polygraph project, Up-Scaled Production of Graphene Reinforced Thermosetting Polymers for Composite, Coating and Adhesive Applications (No.604143), http://www.polygraphproject.eu /, 6百万欧元，主要参与者，已结题.
  学术科研成果 (时间顺序，*为通讯作者)
  [1] Yan Li, Zuying Feng, Ton Peijs, A Review on Functionally Graded Materials and Structures via Additive Manufacturing: from Multi-scale Design to Versatile Functional Properties, Advanced Materials Technologies, 2020 Accepted.
  [2] Tang D, Hao L, Li Y*, et al. Direct Ink Writing of Mineral Materials —A review, International Journal of Precision Engineering and Manufacturing-Green Technology, 2020 Accepted.
  [3] Li Y, Feng Z, Huang L, Essa K, Bilotti E, Zhang H, Peijs T, Hao L. Additive manufacturing high performance graphene-based composites: A review. Composites Part A：Applied Science and Manufacturing, 2019, 124: 105483. https://doi.org/10.1016/j.compositesa.2019.105483
  [4] Y. Li, T. Peijs, E. Bilotti et al, Synergistic Effects of Spray-Coated Mixed Carbon Nanoparticles for Enhanced Electrical and Thermal Surface Conductivity of CFRP Laminates, Composites Part A：Applied Science and Manufacturing, 2018, 105:9-18.
  [5] Wang Y, Li Y*, Liu F, et al. Characteristic of Hydrothermally Treated Beeswax Amber. Gems & Gemology, 2019, 55(3).
  [6] Tang D, Hao L, Li Y*, et al. Dual gradient direct ink writing for formation of kaolinite ceramic functionally graded materials. Journal of Alloys and Compounds, 2020, 814: 152275.
  [7] Tang, D., Hao, L., Li, Y*. and Li, Z. (2020), "Effect of clay functionally graded materials on dual gradient direct ink writing behavior and microstructure of geological model", Rapid Prototyping Journal, Vol. 26 No. 1, pp. 39-48. https://doi.org/10.1108/RPJ-01-2019-0023.
  [8] Feng Z, Li Y*, Hao L, et al. Graphene-Reinforced Biodegradable Resin Composites for Stereolithographic 3D Printing of Bone Structure Scaffolds. Journal of Nanomaterials, 2019, 2019:1-13.
  [9] Li Z, Qi W, Cao J, Li Y*, Viola G, Jia C, Yan H. Multiferroic properties of single phase Bi3NbTiO9 based textured ceramics. Journal of Alloys and Compounds, 2019, 788: 701-704.
  [10] Xiong W, Hao L*, Li Y*, Tang D, Cui Q, Feng Z, Yan C. Effect of selective laser melting parameters on morphology, microstructure, densification and mechanical properties of supersaturated silver alloy. Materials & Design, 2019, 170: 107697
  [11] Feng Z, Liu L, Li L, Chen J, Liu Y, Li Y, Hao L, Wu Y. 3D printed Sm-doped ceria composite electrolyte membrane for low temperature solid oxide fuel cells. International Journal of Hydrogen Energy，2019, 44(26): 13843-13851.
  [12] Zheng Li, Wenzhi Qi, Jun Cao, Yan Li, Giuseppe Viloa, Spark plasma sintering of grain-oriented Sr2Bi4Ti5O18 aurivillius phase ceramics, Journal of Alloys and Compounds, 2019. 782.25. 6-9.
  [13] Cao J, Koval V, Zhang H, Lin Y, Wu J, Meng N, Li Y, Li Z, Zhang H, Yan H. Crystal structure and electrical properties of textured Ba2Bi4Ti5O18 ceramics. Journal of the European Ceramic Society 2019, 39(4): 1042-1049
  [14] Feng Z, Li Y*, Zhang H, Fabrication of Graphene-Reinforced Nanocomposites with Improved Fracture Toughness in Net Shape for Complex 3D Structures via Digital Light Processing，Journal of Carbon Research，2019, 5(2), 25. http://dx.doi.org/10.3390/c**
  [15] G. Santagiuliana, Yan Li, et al. Breaking the nanoparticle loading-dispersion dichotomy in polymer nanocomposites with the art of croissant-making, ACS NANO. 2018, 12(9):9040-9050. doi: 10.1021/acsnano.8b02877
  [16] Danna Tang, Liang Hao, Yan Li, et al, Investigation of Wax-Based Barite Slurry and Deposition for 3D Printing Landslide Model, Composites Part A: Applied Science and Manufacturing, 2018,108:99-106
  [17] Ling Liu, Mingxing Yang, Yan Li, et al. “Raindrop” Turquoise from China，Gems &Gemology, 2018. Vol.54. No.3, PP. 317-318
  [18] Y. Li, P. T. Peijs, E. Bilotti et al, Mechanical, Electrical and Thermal Properties of In-situ Exfoliated Graphene/Epoxy Nanocomposites. Composites Part A：Applied Science and Manufacturing, 2017;95:229-36.
  [19] Y. Li, T. Peijs, E. Bilotti et al, Graphite Nanoplatelet (GNP) Modified Epoxy Resin for Carbon Fibre Reinforced plastics (CFRP) with Enhanced Properties. Journal of Nanomaterials, 2017 (2017), Article ID **, https://doi.org/10.1155/2017/**.
  [20] Y. Li, T. Peijs, E. Bilotti et al, In-situ exfoliation of graphene in epoxy resins: a facile strategy to efficient and large scale graphene nanocomposites. ACS Applied materials & Interfaces, 2016, 8(36): 24112-24122.
  [21] Y. Li, T. Peijs, E. Bilotti et al, Enhanced Thermal and Electrical properties of polystyrene - graphene nanoplatelet nanofibres via electro spinning. Journal of Nanomaterials, 2016 (2016), Article ID **, http://dx.doi.org/10.1155/2016/**.
  [22] Li Y, Huang Z, Fang M. Characterization of dielectric performance of tourmaline single crystals from Yunnan, China [J]. CrystEngComm. 2012, 14(21): 7153-7156.
  [23] Li Y, Zhang H, Peijs T, et al. Graphene Delivery Systems for Hierarchical Fibre Reinforced Composites. MRS Advances, 2016, 19(1): 1339-1344.
  [24] Li Y, Zhang H, Bilotti E, et al. Optimization of Three-Roll Mill Parameters for In-Situ Exfoliation of Graphene. MRS Advances, 2016, 19(1): 1389-1394.
  [25] Y. Li, Z. H. Huang, Y. G. Liu, M. H. Fang, "Preparation and Performance Characterization of Nanometer-Sized Tourmaline Films", Key Engineering Materials, Vol. 537, pp. 252-255, Jan. 2013.
  [26] Chen Guo, Zhang Shouting, Li Yan. 3D Geological Modeling and Assessment of Site Suitability based on Orthogonal Polynomials and Markov Matrix [J]. International Information Institute (Tokyo). Information, 2012, 15(11): 4755.
  [27] Y. Li, Y. Guo, "Colorimetry Study on Red Tourmaline Color Genesis", Key Engineering Materials,
  Vols. 512-515, pp. 657-660, Jun. 2012.
  [28] Y. Li, Z. H. Huang, Y. G. Liu, "Study on Mineral Composition and Main Mineral Morphology of Bauxite from ZhongXiang, HuBei Province", Key Engineering Materials, Vols. 512-515, pp. 648-651, Jun. 2012.
  中文期刊论文(珠宝方向)
  [29] 库雅伦，杨明星*，李妍，湖北竹山黄绿色-绿色绿松石伴生矿的谱学研究，《光谱学与光谱分析》已录用，2019
  [30] 程卡卡, 李妍*, 郝亮. 3D 扫描及颜色测量技术在珍珠分选的应用[J]. 宝石和宝石学杂志, 2019 (4): 5.
  [31] 信辰星，李妍*，4D打印在可穿戴首饰服饰领域的运用，《宝石与宝石学杂志》，2018. Vol.20. No.4
  [32] 信辰星，李妍*，生物基光敏树脂3D打印可穿戴首饰，《宝石与宝石学杂志》，2018. Vol.20.204
  [33] 魏然, 李妍, 谢予. -种铅玻璃充填红宝石中的包裹体特征. 宝石和宝石学杂志, 2009, 11(3): 22-25.
  会议论文
  [34] Wei Xiong, Liang Hao, Yan Li*, Innovative movable structure design for jewelry application based on integrated 3D printing and lost-wax technology，FIT proceeding, 2020
  宝石相关会议摘要
  [35] Yan Li《Inclusion characteristics of wax-like amber after hydrothermal treatment》，美国《Gems &Gemology》年会增刊
  [36] 张志琦,赵彤,李妍.马达加斯加玛瑙的结构、水含量和成因机制[J].宝石和宝石学杂志, 2018, 20(S1):93-96
  [37] 杨景周,李妍.3D打印个性化陶瓷吊坠首饰[J].宝石和宝石学杂志, 2018, 20(S1):201-203
  [38] 程卡卡,沈锡田,李妍.显微拍摄技术的探究——以缅甸虫珀为例[J].宝石和宝石学杂志, 2018, 20(S1):133-134
  [39] 熊玮,郝亮,李妍.选择性激光熔融技术(SLM)在首饰活动结构设计中的应用[J].宝石和宝石学杂志,2018,20(S1):194-195
  出版书籍
  英文书籍《Fundamentals of 3D Food Printing and Applications》中的一章《Material, Process and Business Development for 3D Chocolate Printing》
  发明专利
  1. 《一种石墨烯-羟基磷灰石纳米材料共同增强紫外光固化树脂及制备方法、立体成型方法》，2019.07.22已授权：9.0
  国内外会议口头报告+海报展示
  口头报告
  [1]Y. LI，Graphene Delivery System for Carbon Fiber Reinforced Composites，2015材料研究协会国际学术会议(Materials Research Society，MRS，材料领域最重要的会议)，美国波士顿，2015年11月
  [2] Y. LI，Optimization of the in-situ exfoliation/dispersion processing parameters of graphene nanoplatelets in epoxy for enhanced properties，20届复合材料国际会议(ICCM)，丹麦哥本哈根，2015年7月
  [3] 2017年参加第四届增强制造青年论坛，发表口头报告《微喷射精准沉积矿物材料制备多尺度的复杂结构》；
  [4] 2018年参加美纽约Digital Meets Handmade: Jewellery in the 21st Century 国际论坛，发表口头报告《Movable Structure of Precious Metal Jewellery》
  [5] 2018年参加武汉机械工程学会“增材制造创形创材青年科学家论坛”，发表口头报告《多材料多结构在3D打印中的应用》
  [6] 2018年国际珠宝学术年会，发表口头报告《GIC琥珀研究进展》
  海报展示
  [7] Y. LI，In-situ Exfoliation of Natural Graphite to Graphene in Thermosetting Epoxy海报展示，Materials Research Society会议，美国波士顿，2015年11月
  [8] Y. LI，1st Symposium of the London Polymer Group 海报展示，伦敦大学 (University College London)，2015年3月
  [9] Y. LI，Graphene-Reinforced Epoxies for High Performance Applications，海报展示，伦敦大学，2014年
  [10] Y. Li, Inclusion Characteristics of Wax-like Amber after Hydrothermal Treatment海报展示，美国加州GIA International Gemological Symposium，2018年10月