姜炜坤

姓名

姜炜坤

性别

男

出生年月

1988.08

学历

博士研究生

毕业时间

2018.07

专业

生物质科学与工程

单位

齐鲁工业大学绿色造纸与资源循环全国重点实验室

联系方式

weikun0709@126.com；

13606371078

通讯地址

国重楼B633

（1）个人履历：

副教授，硕士生导师。

2012-2015年，齐鲁工业大学，轻工技术与工程硕士学位。

2015-2018年，华南理工大学，生物质科学与工程博士学位。

2019-2020年，在加拿大新布伦瑞克大学，博士后。

2018.09-2020.12，齐鲁工业大学生物基材料与绿色造纸国家重点实验室，讲师。

2021.01-至今，齐鲁工业大学生物基材料与绿色造纸国家重点实验室（现绿色造纸与资源循环全国重点实验室），副教授。

（2）个人简介：

主要从事木质素高值化利用与生物质基新材料开发与研制工作，近五年主持国家自然科学基金，中国博士后面上基金，科教产融合试点培优基金，高校开放基金以及企业横向项目10余项。相关成果累计发表论文70余篇，以第一/通讯作者在Energy Storage Materials、Applied Catalysis B: Environment and Energy、Chemical Engineering Journal、Composites Part B:   Engineering、Green Chemistry、Journal of Colloid and   Interface Science、ACS Sustainable Chemistry Engineering等期刊发表学术论文50余篇；申请授权国内外发明专利23件（含美国专利1件）。Advances in Colloid and Interface Science、Nano-Micro Letters、Chemical Engineering Journal、Composites Part B: Engineering、Bioresource Technology、Journal of Cleaner Production、Small等学术期刊审稿人，在国际国内学术会议上报告11次。

山东省青创团队项目负责人，“宿迁英才雄英”计划入选者，第五届全国高校混合式教学设计创新大赛“设计之星”，省级“课程思政”示范教学团队成员，山东省专业学位研究生优秀实践成果奖，山东省优秀毕业生，华南理工大学博士国家奖学金、优博基金资助，齐鲁工业大学高水平学术成果奖等获得者。作为指导教师，指导学生获得第十二届山东省大学生科技节纸与造纸创意大赛二等奖 1 项，首届大学生低碳循环科技创新大赛二等奖 1 项，齐鲁工业大学优秀本科学位论文1篇以及国家级创新创业课题1项等。担任轻化工程本科专业课程《制浆造纸原理与工程（双语》、《造纸植物资源化学（双语）》教师。

（3）代表性论文

[1] Yang Wang, Weikun Jiang*, Yu Yang, Chao Wang, Dawei Zhao, Xingxiang Ji, Yu   Liu, Guihua Yang, Jiachuan Chen, Yonghao Ni*, Gaojin Lyu*. Ternary systems   engineered conductive hydrogel with extraordinary strength, environmental   adaptability and excellent electrochemical performances for flexible power   supply devices. Energy Storage Materials, 2024, 70, 103483.（中科院一区Top，IF=20.4）

[2]   Wenliang Wang*, Jiale Huang, Yishuai Fu, Weikun Jiang*, Yutong   Chen, Yujun Ma, Sizhe Han. A 3D porous Fe-MoS₂/CMF catalyst   for high-efficient catalytic reforming of lignin vapor by microwave   irradiation. Applied Catalysis B: Environment and   Energy, 2023, 333, 122787.（中科院一区Top，IF=24.3）

[3] Yang   Wang, Weikun Jiang*, Jiao Li,   Md Sohel Ahommed, Chao Wang, Xingxiang Ji, Yu Liu, Guihua Yang, Yonghao Ni*,   Gaojin Lyu*. Zinc-ion engineered plant-based multifunctional hydrogels for   flexible wearable strain sensors, bio-electrodes and zinc-ion hybrid   capacitors. Chemical Engineering Journal, 2023, 465, 142917.（中科院一区Top，IF=16.7，高被引论文）

[4] Chen   Wu, Weikun Jiang*, Mengyao Xia,   Hui Liu, Tao Zhang*, Jiliang Ma*, Yu Liu. Green preparation of versatile   silver-based nanocomposites using whole biomass-based tannin-furfural as raw   materials. Chemical Engineering Journal, 2024, 489, 151407.（中科院一区Top，IF=15.1）

[5] Chen Wu¹, Mengyao Xia¹, Weikun Jiang*,   Hui Liu, Shiwei Liu, Gaojin Lyu*, Shubin Wu, Yonghao Ni, Yu Liu*. Hollow-structured   resin nanoreactor with high-loading of Ag nanoparticles and void-confinement   effect for efficient catalytic hydrogenation. Composites Part B: Engineering, 2025, 296, 112267.（中科院一区Top，IF=12.7）

[6] Han Cui, Weikun Jiang*, Chao Wang, Xingxiang Ji, Yu Liu, Guihua Yang,   Jiachuan Chen, Gaojin Lyu*, Yonghao Ni*. Lignin nanofiller-reinforced   composites hydrogels with long-lasting adhesiveness, toughness, excellent   self-healing, conducting, ultraviolet-blocking and antibacterial properties, Composites Part B: Engineering, 2021,   225, 109316.（中科院一区Top，IF=11.3）

[7] Weikun Jiang*, Shuyun Liu, Chaojun Wu, Yu Liu, Guihua Yang,   Yonghao Ni*. Super-stable, solvent-resistant and uniform lignin nanorods and   nanospheres with a high yield in a mild and facile process. Green Chemistry, 2020, 22, 8734.（中科院一区Top，IF=11.0）

[8] Yishuai   Fu, Wenliang Wang*, Hui Miao, Yangyi Cui, Yutong Chen, Ziwei Wang, Guowei   Xiao, Bailiang Xue*, Weikun Jiang*. Exploration of microwave   absorptivity and catalysis of CMF@Co-MoS₂ for microwave-initiated   depolymerization of lignin.Chemical Engineering Journal, 2024, 501, 157591.（中科院一区Top，IF=13.3）

[9]   Zhendong Liu, Aohua Li, Jiliang Ma*, Weikun Jiang*, Runcang Sun*. In-situ carbon-doped poly(triazine   imide) modified with silver nanoparticles for synergistic efficient   photocatalytic CO₂ reduction coupled with biomass refining. Chemical Engineering Journal,2024, 489, 155361.（中科院一区Top，IF=13.3）

[10] Yang Zhang, Jincheng Mao*, Weikun Jiang*, Shuo Zhang, Li Tong,   Jinhua Mao, Guo Wei, Ming Zuo, Yonghao Ni*. Lignin sulfonate induced   ultrafast polymerization of double network hydrogels with anti-freezing, high   strength and conductivity and their sensing applications at extremely cold   conditions. Composites Part B:   Engineering, 2021, 217, 108879.（中科院一区Top，IF=11.3）

[11] Shuo Zhang, Weikun Jiang*, Guolong Liu, Shiwei Liu, Honglei Chen, Gaojin Lyu,   Guihua Yang, Yu Liu*, Yonghao Ni*. Preparation of ultrafine and highly loaded   silver nanoparticle composites and their highly efficient applications as   reductive catalysts and antibacterial agents. Journal of Colloid and Interface Science, 2023, 629, 766-777.（中科院一区Top，IF=9.9）

[12] Yu   Yang, Weikun Jiang*, Yang   Wang, Chen Wu, Honglei Chen, Gaojin Lyu, Jiliang Ma, Yonghao Ni*, Yu Liu*.   Preparation of strong and tough conductive hydrogel based on grafting, Fe³⁺-catechol   complexations and salting out for triboelectric nanogenerators. Journal of Colloid and Interface Science, 2024, 661, 450-459.（中科院一区Top，IF=9.9）

[13] Weikang Ling, Jiliang Ma*, Weikun Jiang*, Huanqiu Wei,   Yuchen Ren, Min Hong, Lingzhao Kong, Runcang Sun*. Interfacial engineering of   Co(OH)₂@CN composites: a study of p-n heterojunctions with   enhanced xylose/xylan photoreforming and CO₂ reduction performance. Journal of Colloid and Interface Science, 2025, 682, 814-824.（中科院一区Top，IF=9.4）

[14] Shunli   Li, Weikun Jiang*, Huimei Wang, Jiliang Ma, Jinghui Zhou, Yu   Liu.Integrated preparation of   functional lignin nanoparticles and levulinic acid directly from the   pre-hydrolysis liquor of poplar wood.International Journal of Biological Macromolecules, 2024,265,   130906.（中科院一区Top，IF=8.2）

[15] Qi   Wang, Huimei Wang*, Honglei Chen, Zhengxiang Meng, Fangong Kong, Yu Liu*, Weikun   Jiang*.Efficient synthesis of highly   hydrophobic lignin nanoparticles and their application as nano fillers for   multifunctional composite membranes.International Journal of Biological   Macromolecules, 2024,282,   136869.（中科院一区Top，IF=7.7）

[16]Xinze Li,   Jiliang Ma*, Weikun Jiang*, Rui Cui, Zhendong Liu, Junqiang Zhang,   Runcang Sun*. Fabricating a CNIS@SL S‑scheme   heterojunction with spatial charge separation for boosting photocatalytic   biomass reforming. ACS Sustainable Chemistry Engineering, 2024, 12, 14810-14820.（中科院一区Top，IF=7.1）

[17]Wenliang   Wang*, Yishuai Fu, Yutong Chen, Hui Miao, Hui Zheng, Jiawen Pan, Ziwei Wang,   Yuchen Liu, Weikun Jiang*.Microwave depolymerization of lignin   via dynamic vapor flow reaction system: HCOOH as pretreatment solvent or   reforming solvent vapor. ChemSusChem, 2024, e202400151.（中科院二区Top，IF=8.4）

[18]   Mengyao Xia¹, Chen Wu¹, Weikun Jiang*, Jiankang   Liu, Chao Wang, Shiwei Liu, Chang Geun Yoo, Yu Liu*, Gaojin Lyu*.The   preparation of resin-based carbon nanospheres with a hollow/curved structure   and their application as supercapacitor electrodes.Journal of   Power Sources,2025, 633, 236371.（中科院二区Top，IF=8.1）

[19] Shuo Zhang,   Weikun Jiang*, Mengyao Xia, Chen   Wu, Honglei Chen, Guihua Yang, Yu Liu*, Yonghao Ni*. Fabrication of   tannin-based hydroxyl-rich, uniform and size-controllable nanospheres as   carriers for silver nanoparticles. Industrial   Crops and Products, 2023, 194, 116393.（中科院一区Top，IF=6.4）

[20]   Mengyao Xia, Weikun Jiang*, Chen Wu, Chao Wang, Chang Geun Yoo, Yu Liu*,   Gaojin Lyu*, Tannin-assisted synthesis of nanocomposites loaded with silver   nanoparticles and their multifunctional applications. Biomacromolecules, 2023, 24,   5194-5206.（中科院一区Top，IF=6.2）

[21]刘国龙, 毕成龙, 刘慧, 杨宇, 王超, 刘玉, 姜炜坤*. 导电水凝胶的制备及其应用研究进展.现代化工,2025, 02, 27-31.

[22] 刘慧, 刘国龙, 毕成龙, 吴辰, 王超, 刘玉, 姜炜坤*. 木质素基水凝胶的制备及其潜在应用研究进展. 中国造纸, 2024, 11,   26-36.

[23] 杨宇, 王洋, 刘国龙, 吴辰, 刘玉, 姜炜坤*. 导电水凝胶基摩擦纳米发电机的性能优化与应用研究进展. 中国造纸, 2023, 05,   22-36.

[24] 吴辰, 刘国龙, 马占松, 杨宇, 刘玉, 姜炜坤*. 用于CO氧化的Au催化剂载体研究进展. 现代化工, 2023,43, 11-16.

[25] 王洋, 吕高金, 夏梦瑶, 王超, 庄文平, 姜炜坤*. 生物质基水凝胶功能材料的研究进展. 中国造纸, 2023, 04, 123-131.

（4）申请授权专利

[1] 姜炜坤, 刘淑云, 邵鲁鹏, 吕高金, 刘玉. 一种木质素磺酸盐纳米球纳米棒的制备方法, 2022-5-27至2032-5-27, 中国, ZL202010749105.2.

[2] 姜炜坤, 张硕, 刘淑云, 陈洪雷, 刘玉. 一种调节木质素磺酸盐纳米棒尺寸的方法, 2022-6-7至2032-6-7, 中国, ZL202011597833.2.

[3] 姜炜坤, 刘淑云, 杨梦茹, 刘玉, 陈洪雷, 吕高金. 适用于作为多道生理记录处理系统水凝胶电极膜片及方法, 2022-10-18至2032-10-18, 中国, ZL20201 1625534.5.

[4] 姜炜坤, 张硕, 刘玉, 刘国龙, 陈洪雷. 利用单宁酸涂层辅助酚醛树脂微球表面原位还原形成超小尺寸和高密度纳米银粒子的方法, 2022-10-25至2032-10-25, 中国, ZL202111086873.5.

[5] 姜炜坤, 刘玉, 吕高金, 陈洪雷. 一种酚化木质素-酚醛树脂纳米球的制备方法及其应用, 2023-3-17至2033-03-17, 中国, ZL202011582210.8.

[6] 姜炜坤, 吴辰, 刘玉. 一种全生物基组分（单宁酸-糠醛）树脂微纳米球的制备方法, 2023-6-21, 中国, ZL202310698900.7.

[7]姜炜坤, 张硕, 刘玉. 一种调控儿茶酚基树脂微纳米球形貌及尺寸的方法, 2022-09-30, 中国, ZL202211214028.6.

[8] 姜炜坤, 夏梦瑶, 吕高金, 刘玉. 一种利用单宁酸包覆酚醛树脂微球与聚乙烯醇复合制备高强度多功能复合膜材料的方法, 2022-9-8, 中国, 202211164580.9.

[9] 姜炜坤, 张硕, 孔岳, 吴辰, 刘玉. 能够负载银纳米颗粒的表面具有荔枝状凹凸结构的儿茶酚-糠醛基树脂纳米球的制备方法, 2023-6-23, 中国, ZL202310777757.0.

[10] 姜炜坤, 夏梦瑶, 董文通, 吴辰, 刘玉. 一种具有多级孔结构的N掺杂的超级电容器碳电极材料的制备方法, 2023-12-25, 中国, ZL202311803505.7.

[11] 姜炜坤, 张硕, 刘玉, 刘国龙, 陈洪雷. METHOD FOR IN SITU SYNTHESIZING   ULTRAFINE AND HIGHLY LOADED AG NPS ON THE SURFACE OF TANNIN-COATED PHENOLIC   RESIN MICROSPHERES, 2024-2-15, 美国, US-2024-0051021-A1.

[12]姜炜坤，杨宇，刘国龙，陈洪雷，刘玉. 一种高强韧导电水凝胶及其制备方法与其在水凝胶摩擦纳米发电机中的应用, 2023-12-19, 中国, ZL202311764388.8.

[13] 姜炜坤，吴辰，刘慧，吕高金，陈洪雷，刘玉. 单宁酸包覆中空酚醛树脂载银纳米球及其制备方法和应用, 2024-04-22，中国, ZL202410486476.4.

[14]姜炜坤, 刘国龙, 陈洪雷, 刘玉. 一种具有温度响应性水凝胶基伤口敷料材料的制备方法, 2025-01-08, 中国, ZL202510024785.4.

[15]姜炜坤, 刘慧, 陈洪雷, 刘玉. 一种基于木质素模板法制备多孔树脂微纳米材料的方法,2025-01-09, 中国, ZL202510033162.3.

[16] 姜炜坤, 毕成龙, 陈洪雷, 刘玉. 一种海藻酸钠基梯度水凝胶传感器的制备方法, 2025-01-10, 中国, ZL202510037858.3.

[17] 姜炜坤, 杨宇, 陈洪雷, 吕高金, 刘玉.一种梯度水凝胶及其密度差驱动双向自生长制备方法, 2025-02-27, 中国, ZL202510220382.7.