(一) 简介

  梁志瑜，高级实验师，工学博士，硕士生导师。近年来一直致力于光催化环境净化材料的理论基础和应用研究，通过调整光催化材料的设计思路和策略，研究开发新型环境光催化材料。研究的主要内容包括：纳米材料的设计及其光催化机理研究以及光催化材料在环境保护中的应用研究，已在国内外期刊发表论文二十余篇。

(二) 主讲课程

  《材料现代分析方法实验》、《基础化学实验V》、《仪器分析实验》

(三) 研究方向

1、 可见光响应光催化净水材料的制备及其在多组分污水中的应用

2、 光催化技术在有机物选择性氧化/还原中的应用

3、 中药材有效成分的提取和利用

(四) 教学与科研项目

      1、多金属硫化物电化学氧化机制—活性氧化物/氢氧化物的原位生长调控及催化性能研究，福建省自然科学基金项目，在研，主持

      2、非贵金属基催化材料的设计调控及其电催化析氧性能研究，福建省教育厅，在研，主持

      3、Fe、Co元素调控NiS光催化性能机制研究，宁德师范学院，在研，主持

      4、N掺杂碳膜包裹多孔CdS纳米材料高效还原CO₂的研究，宁德师范学院，在研，主持

      5、用牡蛎壳制备新型吸附材料及其去除有机污染物的特性研究，宁德师范学院，在研，主持

     6、福建特色中药材“福九味”安全质量评价研究，2021年国家级大学生创新训练项目，在研，指导老师

(五) 近5年科研成果

      [1] Z. Y. Liang, Q. J. Wen, X. Wang, F. W. Zhang, Y. Yu, Chemically stable and reusable nano zero-valent iron/graphite-like carbon nitride nanohybrid for efficient photocatalytic treatment of Cr(VI) and rhodamine B under visible light, Applied Surface Science, 386 (2016) 451-459.(IF=5.155)

     [2] Z. Y. Liang, J. X. Wei, X. Wang, Y. Yu, F. X. Xiao, Elegant Z-scheme-dictated g-C₃N₄ enwrapped WO₃ superstructures: a multifarious platform for versatile photoredox catalysis, Journal of Materials Chemistry A, 5 (2017) 15601-15612.( IF=10.733)

    [3] X. Wang, Z. M. Zhou, Z. Y. Liang, Z. Y. Zhuang, Y. Yu, Photochemical synthesis of the Fe-0/C₃N₄/MoS₂ heterostructure as a highly active and reusable photocatalyst, Applied Surface Science, 423 (2017) 225-235. (IF=5.155)

    [4] C. Li, Q. J. Wen, M. Z. Hong, Z. Y. Liang, Z. Y. Zhuang, Y. Yu, Heavy metals leaching in bricks made from lead and zinc mine tailings with varied chemical components, Construction And Building Materials, 134 (2017) 443-451.( IF=4.046)

     [5] J. X. Wei, N. C. Cheng, Z. Y. Liang, Y. F. Wu, Z. G. Zou, Z. Y. Zhuang, Y. Yu, Heterometallic metal–organic framework nanocages of high crystallinity: an elongated channel structure formed in situ through metal-ion(M = W or Mo) doping, Journal of Materials Chemistry A,6(2018),23336-23344(IF=10.733)

     [6] Y. L. Weng, Z. Z. Weng, Z. Y. Liang, H. X. Lyu, Z. Y. Zhuang, Y. Yu, Mesoporous Ca–Mn–O as an efficient scavenger toward organic pollutants and heavy metals: ion exchange provoking ultrafast Fenton-like reaction based on the synergy of alkaline earth/transition metals, Journal of Materials Chemistry A, 2018,6, 9528-9538 (IF=10.733)

     [7]Z. Y. Liang, R. K. Huang, R. W. Liang, F. Chen, Y. Yu, G. Y. Yan, Preparation of a shell nanostructure for highly selective photocatalytic oxidation of organic compounds by wrapping on NiO nanorods exposed {110} facets with ultrathin g-C₃N₄ nanosheets, Applied Surface Science, 484(2019) 424-432. (IF=5.155)

     [8]Z.Y. Liang, M. Z. Huang, S.Y. Guo, Y. Yu, W. Chen, F. X. Xiao, Nanoporous 2D semiconductors encapsulated by quantum-sized graphitic carbon nitride: Tuning directional photoinduced charge transfer: Via nano-architecture modulation, Catalysis Science and Technology, 9(2019) 672-687.(IF=5.726)

     [9]. Z.Y. Liang, G. Y. Yan，Facile preparation of oyster shells-derived versatile Ca-Fe-O porous materials as fenton-like reagent for environmental remediation，Functional Materials Letters, 13(2020) 2050034 (IF= 2.00)

    [10] R. W. Liang, Z.Y. Liang, F. Chen, D. H. Xie, Y. L. Wu, X. X. Wang, G. Y. Yan, L. Wu, Sodium dodecyl sulfate-decorated MOF-derived porous Fe₂O₃ nanoparticles: High performance, recyclable photocatalysts for fuel denitrification, Chinese Journal of Catalysis, 41 (2020) 188–199 (IF=8.271)

    [11]. Z.Y. Liang, R. K. Huang, R. W. Liang, D. H. Xie, G. Y. Yan, A direct Z-scheme mechanism for selective hydrogenation of aromatic nitro compounds over a hybrid photocatalyst composed of ZnIn₂S₄ and WO₃ nanorods, New journal of Chemsitry,45(2021) 3298-3310 (IF= 3.288)

    [12] 梁志瑜，利用表面活性剂提取太子参环肽的提取方法[P]，发明专利, 201910648722.0