（一）導師簡介

王漢坤，男，漢族，工學博士，研究員，博士生導師。

招生專業：木材科學與技術、材料與化工

2013年獲中國林業科學研究院木基複合材料科學與工程專業博士學位。2016年赴美國農業部林務局林產品實驗室進行訪問研究。國家林業和草原局青年拔尖人才。曾任國際竹藤中心竹藤生物質新材料研究所副所長，貴州省黔南州荔波縣縣委常委、縣政府副縣長（掛職），現任國家林業和草原局/北京市共建竹藤科學與技術重點實驗室副主任、國家木竹產業技術創新戰略聯盟專家委員、IAWA國際木材解剖學家協會中國分會常務委員。

研究方向：主要從事竹材基礎性質、竹基納米纖維素的高效製備及應用等方麵的研究。

（二）科研經曆

首次開發了竹材維管束的智能檢測及梯度結構分析技術，為竹材在高效利用、仿生學研究等領域的利用提供理論支撐；定量揭示了竹材獨特的強韌機製及影響因素，闡明了竹材超微結構及環境因素對竹材細胞壁力學性能的複雜影響規律，創建了基於細胞壁力學表征技術的複合材料界麵研究方法學。先後主持並參與國家自然科學基金麵上項目、林草青年拔尖人才項目、國家標準製（修）定項目、十四五國家重點研發計劃課題等，發表學術論文116篇，獲授權專利19項、軟件著作權6項，製定行業標準2項。工作期間獲國家科技進步二等獎、梁希林業科學技術一等獎、茅以升木材科學技術一等獎等多項國家/省部級獎項。

（三）在研項目和課題

[1] 2021-2024. 國家自然科學基金麵上項目，“基於竹節精細結構解析的圓竹力學行為研究（32071855）”.

[2] 2022-2027. “十四五”國家重點研發計劃課題，“竹藤材多尺度結構解譯與性能構效關係（2022YFD2200901）”

（四）近5年發表的主要論文（第一作者或通訊作者）

[1] Ying Zhang, Haocheng Xu, Jing Li, Hankun Wang* Unraveling the inhibition of bamboo node on dry shrinkage: insights from the specific vascular structure of bamboo node. Industrial Crops and Products. 2024, 211: 118193.（1區TOP期刊）

[2] Haocheng Xu, Jing Li, Yannan She, Hankun Wang*, Xinwu Xu*. The unique flexibility feature of moso bamboo: Arising implications for biomimetic material design. Construction and Building Materials. 2024, 411: 134568. （1區TOP期刊）

[3] Fukuan Dai, Yuxuan Chen, Zhang Wenfu, Tuhua Zhong, Genlin Tian, Hankun Wang*. Analyzing the Structure of Bamboo Culms using Computer Vision and Mechanical Simulation. Holzforschung. 2023

[4] Haocheng Xu, Jing Li, Hankun Wang*, Xinwu Xu*. The unique flexibility feature of bamboo: Cantilever-beam loading form the coupling bending-shear effects. Industrial Crops and Products. 2023, 205: 117494. （1區TOP期刊）

[5] Jing Li, Haocheng Xu, Ying Zhang, Tuhua Zhong, Katherine Semple, Vahid Nasir, Hankun Wang*, Chunping Dai*. Radial distribution of vascular bundle morphology in Chinese bamboos: machine learning methodology for rapid sampling and classification. Holzforschung. 2023, 77(6): 468-483.

[6] Ying Zhang, Haocheng Xu, Jing Li, Tuhua Zhong, Hankun Wang*. Differences in dry shrinkage of bamboo rings with multiple heights and radians based on vascular bundle group. Holzforschung, 2023, 77: 208-217.

[7] Haocheng Xu, Ying Zhang, Jiajun Wang, Jing Li, Tuhua Zhong, Xinxin Ma, Hankun Wang*. A universal transfer-learning-based detection model for characterizing vascular bundles in Phyllostachys. Industrial Crops and Products, 2022, 180: 114705. （1區TOP期刊）

[8] Ying Zhang, Haocheng Xu, Jing Li, Tuhua Zhong, Hankun Wang*. Dry shrinkage of Moso bamboo in relation to vascular bundle structure. Holzforschung, 2022, 77:63-71.

[9] Jing Li, Haocheng Xu, Yan Yu, Hong Chen, Wukun Yi, Hankun Wang*. Intelligent Analysis Technology of Bamboo Structure. Part I: the variability of vascular bundles and fiber sheath area. Industrial Crops and Products. 2021, 174: 114163. （1區TOP期刊）

[10] Haocheng Xu, Jing Li, Xinxin Ma, Wukun Yi, Hankun Wang*. Intelligent Analysis Technology of Bamboo Structure. Part II: the variability of radial distribution of fiber volume fraction. Industrial Crops and Products. 2021, 174: 114164. （1區TOP期刊）

[11] An Huang, Fan Liu, Zhixiang Cui, Haokun Wang, Xinchen Song, Lihong Geng, Hankun Wang*, Xiangfang Peng*. Novel PTFE/CNT composite nanofiber membranes with enhanced mechanical, crystalline, conductive, and dielectric properties fabricated by emulsion electrospinning and sintering. Composites Science and Technology. 2021, 214: 108980. （1區TOP期刊）

[12] Hong Chen, Jieyu Wu, Jiangjing Shi, Wenfu Zhang, Hankun Wang*. Effect of alkali treatment on microstructure and thermal stability of parenchyma cell compared with bamboo fiber. Industrial Crops and Products. 2021, 164 : 113380. （1區TOP期刊）

[13] An Huang, Linjia Lin, Shudong Chen, Hui Fang, Hankun Wang*, Xiangfang Peng*. Facile preparation of Poly (butylene succinate)/Carbon Nanotubes/Polytetrafluoroethylene Ternary Nanocomposite Foams with Superior Electrical Conductivity by Synergistic Effect of “Ball Milling” and Supercritical Fluid-Assisted Processing. Composites Science and Technology. 2021, 201(5): 108519. （1區TOP期刊）

[14] Minghui Liu, Wanju Li, Fei Guo, Hankun Wang*, Xuexia Zhang, Yan Yu*. Dimensionally stable and highly durable bamboo material prepared through a simple surface furfurylation. Construction and Building Materials 2021, 276: 122156. （1區TOP期刊）

[15] Jiawei Zhu, Jing Li, Chuangui Wang, Hankun Wang*. Structure of windmill palm (Trachycarpus fortunei) culm and its compressive properties. European Journal of Wood and Wood Products. 2020, 78: 135-142.