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    余高波
    • 职  称:副教授
      导  师:硕导
      研究方向:1. 化学产品工程 2. 多尺度分子模拟 3. 生物质资源化利用
      联系方式:gaobo.yu@hainanu.edu.cn


    研究方向:

    1. 化学产品工程 2. 多尺度分子模拟 3. 生物质资源化利用

    讲授课程:

    1. 《化工原理》

    2. 《化工原理实验》

    3. 《化工专业实验》

    4. 《化工仿真与实践》

    5. 《海南天然气分析与合成能源化工安全虚拟仿真实践》

    学术兼职:

    担任ACS Sustainable Chem. Eng., Carbohyd. Polym., Colloid. Surface.等期刊审稿人

    学术成就:

    主持和参与国家自然科学基金、省部级教学、科研及协同育人项目等20余项,在AIChE J., Chem. Eng. Sci., ACS Sustainable Chem. Eng., J. Agr. Food. Chem., Carbohyd. Polym., J. Clean. Prod., Food Hydrocolloid., ACS Appl. Mater. Interfaces, J. Phys. Chem., Phys. Chem. Chem. Phys.等期刊上发表SCI论文40余篇,参编英文学术专著1部,授权发明专利8件,入选教育部产学合作协同育人项目专家库,获海南省教学成果一等奖1项,海南大学教学成果奖3项,指导学生获海南大学优秀硕士学位论文、海南大学优秀本科毕业论文、海南大学优秀毕业生、省部级以上学生竞赛奖项10余项等。

    科研项目:

    1. 椰树纤维禾塑复材关键技术研究及产业化应用示范, 海南省重点研发计划(C档), 参与;

    2. 基于两亲性海藻酸盐的载药乳液的微观机制和多尺度模拟, 国家自然科学青年基金, 主持;

    3. pH/光响应海藻酸-环糊精/偶氮苯衍生物自组装体的两亲性调控及对载药乳液稳定/失稳性的影响机制, 国家自然科学基金, 参与;

    4. 环境响应型南海海藻生物基超分子载药材料的开发及在农药控释中的应用, 海南省重点研发计划, 参与;

    5. 含TiO2光解源的两亲性海藻酸衍生物纳米纤维载药系统的构建及对农药残留在热带土壤中环境行为的影响, 海南省自然科学基金创新研究团队项目, 参与;

    6. 两亲性海藻酸衍生物对农药高效靶标作用关键技术及其减施增效应用研究, 海南省重点研发计划, 参与;

    7. 两亲性海藻酸衍生物与烷基糖苷协同稳定载药乳液的微观机制和介观模拟, 海南省自然科学基金面上项目, 主持;

    论著专利:

    1. Lanlan Qin, et al. Coarse-grained simulations of lysozyme-silica-nanoparticle corona. Biointerphases, 2023, 18(3): 031003.

    2. Zhaojun Wang, et al. Covalent bond interfacial recognition of polysaccharides/silica reinforced high internal phase pickering emulsions for 3D printing. ACS Applied Materials & Interfaces, 2023, 15(19): 23989-24002.

    3. Furui He, et al. Coexistence of aggregates and flat states of hydrophobically modified sodium alginate at an oil/water interface: a molecular dynamics study, International Journal of Biological Macromolecules, 2023, 231: 122233.

    4. Chuang Xiong, Xinyu Cao, et al. Stability and photo demulsification of oil-in-seawater Pickering emulsion based on Fe3+ induced amphiphilic alginate. Carbohydrate Polymers, 2022, 289: 119399.

    5. Jijie Yuan, et al. Effects of pH and UV on the stability, drug-loading and release behavior of alginate-based emulsion: a coarse-grained molecular dynamics simulation and experimental study. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 607: 125474.

    6. Qiyan Wen, et al. Fabricating network-link acetamiprid-loading micelles based on dopamine- functionalized alginate and alkyl polyglucoside to enhance folia deposition and retention. Journal of Agricultural and Food Chemistry, 2022, 70(12): 3596-3607.

    7. Wenqi Qin, et al. Highly dispersible magnetic nanoparticles modified by double quaternary ammonium surfactants for efficient harvesting of oleaginous microalgae. Journal of Cleaner Production, 2021, 325: 129297.

    8. Feilin Lin, et al, Interfacial regulation and visualization of pickering emulsion stabilized by Ca2+- triggered amphiphilic alginate-based fluorescent aggregates. Food Hydrocolloids, 2021, 119: 106843.

    9. Xinyu Zhao, et al. High-viscosity pickering emulsion stabilized by amphiphilic alginate/SiO2 via multiscale methodology for crude oil-spill remediation. Carbohydrate Polymers, 2021, 273: 118492.

    10. Shujuan Yang, et al. Interfacial self-assembled behavior of pH/light-responsive host-guest alginate-based supra-amphiphiles for controlling emulsifying property. Carbohydrate Polymers, 2021, 266: 118121.

    11. Furui He, et al. Highly stretchable and tough alginate-based cyclodextrin/zo-polyacrylamide interpenetrating network hydrogel with self-healing properties. Carbohydrate Polymers, 2021, 256: 117595.

    12. Yafei Li, et al. Preparation and characterization of oil-in-water emulsion based on eco-friendly emulsifiers. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2020, 602: 125024.

    13. Buyao Zhang, et al. Optimization of extraction technology of poly-mannuronic acid to a green delivery system for the water-insoluble pesticide, λ-Cyhalothrin. International Journal of Biological Macromolecules, 2020, 153: 17-25.

    14. Quan Zhang, et al. Eco-friendly interpenetrating network hydrogels integrated with natural soil colloid as a green and sustainable modifier for slow release of agrochemicals. Journal of Cleaner Production, 2020, 269: 122060.

    15. Longzheng Wang, et al. Stretchable hydrophobic modified alginate double-network nanocomposite hydrogels for sustained release of water-insoluble pesticides. Journal of Cleaner Production, 2019, 226: 122-132.

    16. Yang Peng, Dunchao Xiao, et al. Effect of an eco-friendly o/w emulsion stabilized with amphiphilic sodium alginate derivatives on lambda-cyhalothrin adsorption-desorption on natural soil minerals. Journal of Environmental Sciences, 2019, 78: 230-238.

    17. Xinyu Zhao, et al. Eco-friendly pickering emulsion stabilized by silica nanoparticles dispersed with high-molecular-weight amphiphilic alginate derivatives. ACS Sustainable Chemistry & Engineering, 2018, 6(3): 4105-4114.

    18. Qingfeng Zhou, et al. Degradation kinetics of sodium alginate via sono-Fenton, photo-Fenton and sono-photo-Fenton methods in the presence of TiO2 nanoparticles. Polymer Degradation and Stability, 2017, 135: 111-120.

    19. Kai Chen, et al. A pH-responsive emulsion stabilized by alginate-grafted anisotropic silica and its application in the controlled release of λ-cyhalothrin. Carbohydrate Polymers, 2017, 176: 203-213.

    20. Gaobo Yu, et al. Understanding the curvature effect of silica nanoparticles on lysozyme adsorption orientation and conformation: a mesoscopic coarse-grained simulation study. Physical Chemistry Chemical Physics, 2016, 18(34): 23500-23507.

    21. Gaobo Yu, et al. Mesoscopic coarse-grained simulations of hydrophobic charge induction chromatography (HCIC) for protein purification. AIChE Journal, 2015, 61: 2035-2047.

    22. Gaobo Yu, et al. Mesoscopic coarse-grained simulations of lysozyme adsorption. Journal of Physical Chemistry B, 2014, 118(17): 4451-4460.


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