馬建鋒，男，漢族，1984年12月。博士研究生，副研究員。2014年北京林業大學材料學院林產化學加工工程專業畢業，獲博士學位。主要從事竹藤材超微結構解譯及功能性炭材料開發研究。2019年作為訪問學者，赴美國賓夕法尼亞州立大學開展竹藤材細胞壁超微結構研究。現任竹炭產業國家創新聯盟秘書長。

主持包括“十四五”、“十三五”國家重點研發計劃子課題，國家自然科學基金在內的各類科研項目10項，以第一/通訊作者發表期刊論文32篇，其中SCI收錄22篇，單篇最高影響因子14.5，中科院一區論文12篇。獲授權發明專利4件。參編中英文專著各1部。獲“茅以升”木材科學技術獎一等獎1項，“梁希”林業科學技術獎二等獎1項。

[1] Ling Z., Wang J.J, Zhao J.Y., Feng L., Ma J.F.* , Liu X.E. Insights into key factors affecting bioconversion efficiency of rattan biomass: The supramolecular structural variations of cellulose. Bioresource Technology, 2023, 369: 128381.

[2] Jin Z., Cui W.L., Ma J.F*., Chen Q*., Fu Y.J. Area-selective depolymerization of hydroxycinnamates visualized by Raman imaging inMiscanthus sinensiscv. cell wall. Journal of Agriculture Food and Chemistry, 2023, 25(71): 9796-9803.

[3] Ling Z., Ma J.M, Zhang S., Shao L.P., Wang C., Ma J.F.* . Stretchable and fatigue resistant hydrogels constructed by natural galactomannan for flexible sensing application. International Journal of Biological Macromolecules, 2022, 216: 193-202.

[4] Dai L.X., Wang J.J., Liu X.E., Ma Q.L., Fei B.H., Ma J.F.*, Jin Z.* In-situ visualizing selective lignin dissolution of tracheids wall in reaction wood. International Journal of Biological Macromolecules, 2022, 222: 691-700.

[5] Hu X.H., Dai L.X., Ma Q.L. , Xu J.Y. , Ma J.F.* , Liu X.E. One-pot synthesis of iron oxides decorated bamboo hydrochar for lead and copper flash removal. Industrial Crops and Products, 2022, 187: 115396.

[6] Ling Z. , Zhao J.Y. , Xie Y., Dai L.X., Feng L. , Ma J.F.* , Y Q.* Facile nanofibrillation of strong bamboo holocellulose via mild acid-assisted DES treatment. Industrial Crops and Products, 2022, 187: 115485.

[7] Jin K.X., Xing J.X., Liu X.E., Jiang Z.H., Ma J.F.* Manipulating the assembly of the CNC/RGO composite film for superior electromagnetic interference shielding properties. Journal of Materials Chemistry A, 2021, 9(47):26999-27009.

[8] Xu Y.H., Li X.Y., Li M.F.,* Peng F., Ma J.F.* Acetone fractionation of heterogeneous tetrahydrofurfuryl alcohol lignin to improve its homogeneity and functionality. Journal of Materials Research and Technology, 2021, 10:632-642.

[9] Dai L.X., Jin Z., Liu X.E., Feng L., Ma J.F.*, Ling Z.* Green synthesis of carbon-encapsulated magnetic Fe3O4 nanoparticles using hydrothermal carbonization from Rattan Holocelluloses. Coatings, 2021, 11(11): 1397.

[10] Xu J.K., Dai L., Gui Y., Ma J.F.*, Zhang C.T.,* Towards a waste-free biorefinery: A cascade valorization of bamboo for efficient fractionation, enzymatic hydrolysis and lithium-sulfur cathode. Industrial Crops and Products, 2020, 149:112364.

[11] Jin K.X., Kong L.Y., Liu X.E., Jiang Z.H., Ma J.F.* Understanding the xylan content for enhanced enzymatic hydrolysis of individual bamboo fiber and parenchyma cells. ACS Sustainable Chemistry and Engineering, 2019,7(22):18603-18611.

[12] Jin K.X., Liu X.E., Jiang Z.H., Tian G.L., Ma J.F.* Delignification kinetics and selectivity in poplar cell wall with acidified sodium chlorite. Industrial Crops and Products, 2019,136:87-92.

[13] Ma J.F., Xing J.X., Wang K., Yang H.Y., Fei B.H., Liu X.E. Inspired by efficient cellulose-dissolving system: Facile one-pot synthesis of biomass-based hydrothermal magnetic carbonaceous materials. Carbohydrate Polymers, 2017, 127-135.

[14] Hu X.H., Xu J.Y., Wu M.S., Xing J.X., Bi W.S., Wang K., Ma J.F.,* Liu X.E. Effects of biomass pre-pyrolysis and pyrolysis temperature on magnetic biochar properties. Journal of Analytical and Applied Pyrolysis, 2017, 127:196-202.

Ma J.F., Yang H.Y., Kun W., Liu X.E. Structural modification of hemicelluloses and lignin based on the biorefinery process with white-rot fungal. Carbohydrate Polymers, 2016, 153:7-13.