讲师
本科: 2008/09-2012/06, 山东轻工业学院, 制浆造纸工程
生产实习: 2012/07-2012/10, 山东临清中冶银河有限公司
硕士: 2013/09-2016/06, 齐鲁工业大学, 制浆造纸工程
博士: 2016/09-2019/12,南京林业大学, 制浆造纸工程
访问交流: 2018/01-2018/12,加拿大UNB大学 (University of New Brunswick), 化学工程(Chemical Engineering)
1) 主持和参与的科研项目
a. 江苏省研究生培养创新工程,(No.YCX17_0837),高强三维网络结构纸的研发,1万,结题,主持
b.国家自然科学基金面上项目,31770417,OCC原料制浆过程中纸浆纤维表面淀粉溶解行为及其资源化利用方法,2018/01-2021/12,60万,在研,参加
c.江苏省科技计划重点项目,《BE2018129》,提升国产OCC废纸二次纤维循环回用质量及造纸清洁生产技术集成,2018/07-2021/6,在研,参加
2)发表的文章与论文
a. 以第一作者发表的论文
1) Ni Shuzhen, Wang Chunjian, Jiao Liang, Yu Zhihuai, Wang Xiu, Jiang Shan, Dai Hongqi*.nPreparation of strong and stiff papers through surface sizing with starch and APMS.Appita 2017,70(4),386-393. (中科院四区, IF=3.809)
2)Ni Shuzhen, Wang Chunjian, Huiyang Bian, Zhihuai Yu, Liang Jiao, Guigan Fang, Hongqi Dai*. Enhancing physical performance and hydrophobicity of paper-based cellulosic material via impregnation with starch and PEI-KH560.Cellulose 2018, 25(2):1365-1375. (中科院一区, IF=3.809)
3)Ni Shuzhen, Zhang Hui, Patrick M. Godwin, Hongqi Dai*, Huining Xiao*. ZnO nanoparticles enhanced hydrophobicity for starch film and paper.Materials Letters 2018, 230(1), 207-210. (中科院三区, IF=2.687)
4)Ni Shuzhen, Jiao Liang, Zhang Hui, Zhang Yongchao, Fang Guigan, Xiao Huining*, Dai Hongqi*. Enhancing hydrophobicity, strength and UV shielding capacity of starch film via novel co-cross-linking in neutral conditions.Royal Society Open Science 2018, November 15. (中科院三区,IF= 2.504)
5)Ni Shuzhen, Zhang Hui, Hongqi Dai*, Huining Xiao*. Starch-Based Flexible Coating for Food Packaging Paper with Exceptional Hydrophobicity and Antimicrobial Activity.Polymers 2018, 10, 1260-1275. (中科院二区,IF= 2.935)
6)Ni Shuzhen, Wang Baobin, Zhang Hui, Zhang Yongchao, Liu Zhulan, Wu Weibing, Xiao Huining*, Dai Hongqi*. Glyoxal improved functionalization of starch with AZC enhances the hydrophobicity, strength and UV blocking capacities of co-crosslinked polymer.European Polymer Journal 2019,110, 385-393. (中科院二区,IF= 3.741)
b.既非第一作者又非通讯作者论文
1) Li Yuan, Xiao Huining *, Pan Yuanfeng *, Zhang Min,Ni Shuzhen, Hou Xiaobang, Hu Erfeng. Study on cellulose microfilaments based composite spheres: Microwave assisted synthesis, characterization, and application in pollutant removal.Journal of Environmental Management,2018, 228, 85-92. (中科院二区, IF=4.005)
2) Liu Na*,Ni Shuzhen, Ragauskas, A.J.*, Meng Xianzhi, Hao Naijia, Fu Yingjuan. Laccase-mediated functionalization of chitosan with 4-hexyloxyphenol enhances antioxidant and hydrophobic properties of copolymer.Journal of Biotechnology, 2018, 269, 8-15. (中科院三区, IF=2.533)
3) Wang Chunjian,Ni Shuzhen, Lin Lingrui, Wang Xiu, Dai Hongqi*. Highly efficient utilization of dissolved and colloidal substances in surface sizing for low- cost and sustainable water consumption.Appita, 2018,71(2),221-227. (SCI)
4) Li Yuqi,Zhanghui,Ni Shuzhen,Xiao Huining*. In situ synthesis of conductive nanocrystal cellulose/polypyrrole composite hydrogel based on semi-interpenetrating network. Materials Letters, 2018, 232, 175-178. (中科院三区, IF=2.687)
5) Zhang Yongchao, Xu Wenyang, Wang Xiaoju*,Ni Shuzhen, Emil Rosqvist, Jan-Henrik Smått, Jouko Peltonen, Hou Qingxi, Qin Menghua, Stefan Willför, Xu Chunlin *. From Biomass to Nanomaterials: A green procedure for preparation of holistic bamboo multifunctional nanocomposites based on formic acid rapid fractionation. ACS Sustainable Chemistry & Engineering, 2019. (中科院一区, IF=6.140)
6) Sun Mengya, Liu Na*,Ni Shuzhen, Bian Huiyang, Fu Yingjuan, Chen Xiaoqian. Poplar Hot Water Extract Enhances Barrier and Antioxidant Properties of Chitosan/Bentonite Composite Film for Packaging Applications.Polymers, 2019, 11(10), 1614-1629. (中科院二区,IF= 2.935)
7) Bian Huiyang, Dong Maolin, Chen Lidong, Zhou Xuelian,Ni Shuzhen, Fang Guigan, Dai Hongqi *. Comparison of mixed enzymatic pretreatment and post-treatment for enhancing the cellulose nanofibrillation efficiency.Bioresource Technology, 2019, 293: 122171-122176. (中科院二区,IF= 6.669)
8) Bian Huiyang, Luo Jing, Wang Ruibin, Zhou Xuelian,Ni Shuzhen, Shi Rui, Fang Guigan, Dai, Hongqi. Recyclable and Reusable Maleic Acid for Efficient Production of Cellulose Nanofibrils with Stable Performance. ACS Sustainable Chemistry & Engineering,2019. (中科院一区, IF=6.140)