张勇 - 浙江理工大学 - 纺织科学与工程学院（国际丝绸学院）

个人简介

张勇，男，汉族，1980年12月出生，工学博士，副教授，硕士生导师。2003年7月毕业于北京林业大学。2003年8月-2008年7月在北京林业大学硕博连读，获工学博士学位。2008年8月-2010年6月在中国制浆造纸研究院从事博士后研究工作。2010年7月进入浙江理工大学工作。主持包括1项浙江省自然科学基金和1项浙江省公益计划研究项目在内科研项目10余项，发表SCI论文20余篇，授权发明专利18项。授权专利： [1] 张勇，张志强，周虹伶，姚菊明，一种利用纳滤膜深度处理茶叶袋滤纸造纸白水的方法，2015.11，中国，ZL 201410146995.2. [2] 张勇，姚菊明，马东旭，杨梦梦，一种利用木素磺酸钙调控制备碳酸钙微纳小球的方法，2015.07，中国，ZL 201410049337.1. [3] 姚菊明，庄源，张勇，崔建梅，一种高效发酵绿色木霉制备纤维素酶的方法，2015.07，中国，ZL 201310393491.6. [4] 姚菊明，刘虹奕，张勇，朱杭城，一种利用纤维素基絮凝剂混凝处理废纸制浆造纸综合废水的方法，2015.05，中国，ZL 201410222697.7. [5] 张勇，姚菊明，彭国华，马东旭，一种利用制浆黑液木素调控碳酸钙晶体颗粒生长的方法，2015.05，中国，ZL 201310369253.1. [6] 张勇，姚菊明，马兰，曹建军，庄源，一种利用纤维素酶水解毛竹纤维制备纳米微晶纤维素的方法，2015.02，中国，ZL 201310033311.3. [7] 姚菊明，刘虹奕，张勇，沈小创，一种纤维素基废水絮凝剂的制备方法，2015.02，中国，ZL 201310116816.6. [8] 姚菊明，刘虹奕，张勇. 一种纺织废料纤维素基污水絮凝剂的制备方法，2015.01，中国，ZL 201310205815.9. [9] 姚菊明，费建明，张勇，李玉峰，一种利用废弃桑皮制备纳米纤维素晶须的方法，2015.01，中国，ZL 201210477287.8. [10] 张勇，姚菊明，李厦，陈霖铮，马东旭，一种废纸制浆造纸综合废水污染超滤膜的化学再生方法，2014.08，中国，ZL 201310006734.6. [11] 张勇，姚菊明，卢潇冰，马兰，一种利用毛竹化学制备纳米微晶纤维素的方法，2014.04，中国，ZL 201210394985.1. [12] 张勇，姚菊明，陈霖铮，李厦，崔建梅，一种利用超滤膜深度处理废纸制浆造纸综合废水的方法，2014.01，中国，ZL 201210525476.8. [13] 姚菊明，梁熙英，张勇，一种基于废弃木质植物枝条制备高吸水树脂的方法，2013.12，中国，ZL 20120143427.8. [14] 张勇，冯文英，曹春昱，苏振华，徐明，吕卫军，一种处理制浆造纸废水的多功能膜分离装置及分离方法，2013.05，中国，ZL 200910088246.8. [15] 吕卫军，曹春昱，张勇，一种壁纸原纸的制备方法，2013.01，中国，ZL 201010198071.9. [16] 张勇，曹春昱，冯文英，徐明，苏振华，林乔元，吕卫军，一种碱性过氧化氢化学机械制浆废水的膜浓缩与回用方法，2012.06，中国，ZL 200910236506.1. [17] 吕卫军，曹春昱，薛崇昀，张勇，一种快速测定造纸原料浸渍程度的方法，2012.05，中国，ZL 201010001181.1. [18] 曹春昱，冯文英，苏振华，徐明，林乔元，丁建平，郑燕生，张升友，张勇，一种用于化机浆制浆废液浓缩的板式超滤膜分离装置及运行，2012.03，中国，ZL 200910088247.2.

研究领域

（1）生物基材料的功能化利用（2）水体和空气污染的控制与治理

近期论文

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[1] Hangcheng Zhu, Yong Zhang, Xiaogang Yang, Lan Shao, Xiumei Zhang, Juming Yao. Polyacrylamide grafted cellulose as an eco-friendly flocculant: Key factors optimization of flocculation to surfactant effluent. Carbohydrate Polymers, 135: 145-152, 2016. [2] Hangcheng Zhu, Yong Zhang, Xiaogang Yang, Hongyi Liu, Lan Shao, Xiumei Zhang, Juming Yao. One-step green synthesis of non-hazardous dicarboxyl cellulose flocculant and its flocculation activity evaluation. Journal of Hazardous Materials, 296, 1-8, 2015. [3] Yeli Yu, Yong Zhang, Xiaogang Yang, Hongyi Liu, Lan Shao, Xiumei Zhang, Juming Yao. Biodegradation process and yellowing mechanism of an ecofriendly superabsorbent based on cellulose from flax yarn wastes. Cellulose, 22: 329-338, 2015. [4] Hangcheng Zhu, Yong Zhang, Xiaogang Yang, Hongyi Liu, Xiumei Zhang, Juming Yao. An eco-friendly one-step synthesis of dicarboxyl cellulose for potential application in flocculation. Industrial & Engineering Chemistry Research, 54: 2825-2829, 2015. [5] Hongling Zhou, Hangcheng Zhu, Xiaogang Yang, Yong Zhang, Xiumei Zhang, Kecong Cui, Lan Shao, Juming Yao. Temperature/pH sensitive cellulose-based hydrogel: synthesis, characterization, loading, and release of model drugs for potential oral drug delivery. BioResources, 10(1): 760-771, 2015. [6] Yong Zhang, Xiying Liang, Xiaogang Yang, Hongyi Liu, Juming Yao. An eco-friendly slow-release urea fertilizer based on waste mulberry branches for potential agriculture and horticulture applications. ACS Sustainable Chemistry & Engineering, 2: 1871-1878, 2014. [7] Hongyi Liu, Xiaogang Yang, Yong Zhang, Hangcheng Zhu, Juming Yao, Flocculation characteristics of polyacrylamide grafted cellulose from Phyllostachys heterocycla: An efficient and eco-friendly flocculant, Water Research, 59: 165-171, 2014. [8] Lan Ma, Yong Zhang, Jianjun Cao, Juming Yao, Preparation of unmodified cellulose nanocrystals from Phyllostachys heterocycla and their biocompatibility evaluation, BioResources, 9(1), pp210-217, 2014. [9] Hongyi Liu, Yong Zhang, Juming Yao, Preparation and properties of an eco-friendly superabsorbent based on flax yarn waste for sanitary napkin applications, Fibers and Polymers, 15(1), pp145-152, 2014. [10] Yong Zhang, Fang Wu, Lin Liu, Juming Yao, Synthesis and urea sustained-release behavior of an eco-friendly superabsorbent based on flax yarn wastes, Carbohydrate Polymers, 91(1), pp277-283, 2013. [11] Xiying Liang, Yong Zhang, Lin Liu, Juming Yao, Synthesis and urea-loading of an eco-friendly superabsorbent composite based on mulberry branches, BioResources, 8(1), pp130-144, 2013. [12] Yong Zhang, Lan Ma, Yeli Yu, Juming Yao, In vitro biocompatibility evaluation of cellulose nanowhisker from bamboo fibers for potential drug delivery applications, Materials Science Forum, 778-779, pp130-135, 2013. [13] Yong Zhang, Chunyu Cao, Wenying Feng, Ming Xu, Chemical cleaning of a polyethersulfone membrane used for concentrating the effluent from alkaline peroxide mechanical pulping plants, Environmental Engineering Science, 29(11), pp1020-1025, 2012. [14] Fang Wu, Yong Zhang, Lin Liu, Juming Yao, Synthesis and characterization of a novel cellulose-g-poly(acrylic acid-co-acrylamide) superabsorbent composite based on flax yarn waste, Carbohydrate Polymers, 87(4), pp2519-2525, 2012. [15] Yong Zhang, Xiaobing Lu, Chang Gao, Weijun Lv, Juming Yao, Preparation and characterization of nanocrystalline cellulose from Bamboo fibers by controlled cellulase hydrolysis, Journal of Fiber Bioengineering and Informatics, 5(3), pp263-271, 2012. [16] Yong Zhang, Chunyu Cao, Wenying Feng, Guoxin Xue, Ming Xu, Performance of a pilot-scale membrane process for the concentration of effluent from alkaline peroxide mechanical pulping plants, BioResources, 6(3), pp3044-3054, 2011. [17] Yong Zhang, Chunyu Cao, Qingxi Hou, Wenying Feng, Ming Xu, Zhenhua Su, Qiaoyuan Lin, Jinfeng Zhuang, Weijun Lv, Using a membrane filtration process to concentrate the effluent from alkaline peroxide mechanical pulping plants, BioResources, 5(2), pp780-795, 2010.