学术大咖
乔亮智,2017.09-2023.06于分离材料与柱技术实验室攻读硕博学位。研究方向为:针对重要生物医药产品与应用(蛋白质为主),以高性能生物分离介质为核心,以提高生物分离过程效率为目标,进行色谱分离过程领域的基础研究与应用开发。在读期间,以第一作者在Separation and Purification Technology,Journal of Chromatography A,Chemical Engineering Journal等国际知名化工期刊发表SCI论文23篇,SCI论文20篇,其中JCR一区15篇,SCI他引300余次。撰写专著1章和EI综述论文2篇,其中综述《纤维素基功能材料》被《工程科学与技术》期刊评为高影响力论文。主持四川省科技创新苗子工程项目(5万元,项目编号:22-YCG057),申请中国专利9项,授权专利4项。多次参加国际国内会议,获国家奖学金、四川省优秀毕业生,四川大学优秀毕业生,四川大学十佳学术之星等荣誉。
研究成果:论文(发表23篇论文,4项授权专利,其中SCI论文20篇,一区15篇)
(1)Du Kaifeng, Qiao Liangzhi.Cellulose-based functional materials[J].Advanced Engineering Sciences,2019,51(3): 9–16.[杜开峰,乔亮智.纤维素基功能材料[J].工程科学与技术,2019,51(3):9–16.(入选《工程科学与技术》2021年高影响力论文)
(2)Liangzhi Qiao, Liangshen Zhao, Chao Liang, and Kaifeng Du*, The construction of porous chitosan microspheres with high specific surface area by using agarose as the pore-forming agent and further functionalized application inn bioseparation. Journal of Materials chemistry B 2019.
(3)Liangzhi Qiao, Liangshen Zhao, Hao Ai, Yaling Li, Yi Liu, and Kaifeng Du*, Diethylaminoethyl-Modified Magnetic Starlike Organic Spherical Adsorbent: Fabrication, Characterization, and Potential for Protein Adsorption. Industrial & Engineering Chemistry Research 2019 58 (10), 4099-4107.
(4)Liangzhi Qiao, Shasha Li, Kaifeng Du*, Fabrication and characterization of porous cellulose beads with high strength and specific surface area via preliminary chemical cross-linking reaction for protein separation, Biochemical Engineering Journal, Volume 153, 2020, 107412.
(5)Liangzhi Qiao, Liangshen Zhao, Kaifeng Du*, Construction of hierarchically porous chitin microspheres via a novel Dual-template strategy for rapid and High-capacity removal of heavy metal ions, Chemical Engineering Journal, Volume 393, 2020, 124818,ISSN 1385-8947.
(6)Liangzhi Qiao, Shasha Li, Yaling Li, Yi Liu, Kaifeng Du*, Fabrication of superporous cellulose beads via enhanced inner cross-linked linkages for high efficient adsorption of heavy metal ions, Journal of Cleaner Production, Volume 253, 2020,120017, ISSN 0959-6526.
(7)Liangzhi Qiao, Yaling Li, Yi Liu, Yinghong Wang, Kaifeng Du*, High-strength, blood-compatible, and high-capacity bilirubin adsorbent based on cellulose-assisted high-quality dispersion of carbon nanotubes, Journal of Chromatography A, Volume 1634, 2020, 461659, ISSN 0021-9673.
(8)Liangzhi Qiao, Kaifeng, Du*. Fabrication and application of polysaccharide microspheres[J]. Chemical Industry and Engineering Progress, 2021, 40(8):4305-4313.【乔亮智, 杜开峰. 天然多糖微球的制备及功能应用[J]. 化工进展, 2021, 40(8): 4305-4313.
(9)Liangzhi Qiao, Susu Lei, Kaifeng Du*, High-surface-area interconnected macroporous nanofibrous cellulose microspheres: a versatile platform for large capacity and high-throughput protein separation. Cellulose 28 (2021) 2125-2136.
(10)Liangzhi Qiao, Chao Liang, Kaifeng Du*. Homogeneous and stable carbon nanotube dispersion assisted by cellulose in NaOH/thiourea aqueous solution. Cellulose 28 (2021) 5421-5431.
(11)Liangzhi Qiao, Shanshan Wang, Kaifeng Du* . Macroporous cellulose/carbon nanotube microspheres prepared by surfactant micelle swelling strategy for rapid and high-capacity adsorption of bilirubin. Cellulose 28 (2021) 8419-8428.
(12)Liangzhi Qiao, Shanshan Wang, Kaifeng Du*. High-strength and low-swelling chitosan/cellulose microspheres as a high-efficiency adsorbent for dye removal. Cellulose 28 (2021) 9323-9333.
(13)Liangzhi Qiao, Kaifeng Du*,Toluidine blue-immobilized macroporous chitosan microspheres for highly efficient purification of fucoidan, Biochemical Engineering Journal, Volume 176,2021,108206,ISSN 1369-703X.
(14)Liangzhi Qiao, Tao Wang, Yuxin Liao, Kaifeng Du*, Macroporous chitin microspheres prepared by surfactant micelle swelling strategy for rapid capture of lead (II) from wastewater,Carbohydrate Polymers, 276, 2022, 11877.
(15)Liangzhi Qiao, Kaifeng Du*. Scalable production of high-quality carbon nanotube dispersion in aqueous solution using cellulose as dispersant by a freezing/thawing process. Journal of Colloid and Interface Science, 623 (2022) 1200–1209.
(16)Liangzhi Qiao, Yicheng Du,Kaifeng Du* Grafting diethylaminoethyl dextran to macroporous cellulose microspheres: A protein anion exchanger of high capacity and fast uptake rate. Separation and Purification Technology, 297 (2022) 121434.
(17)Liangzhi Qiao, Kaifeng Du*. Double-emulsion templated macroporous cellulose microspheres as a high-performance chromatographic media for protein separation. Cellulose, 29 (2022): 7263-7276.
(18)Liangzhi Qiao, Kaifeng Du*. Magnetic field-induced self-assembly of urchin-like polymeric particles: mechanism, dispersity, and application in wastewater treatment. Separation and Purification Technology, 299 (2022) 121742.
(19)乔亮智1 ,周禄英2 ,杜开峰1* 表面活性剂胶束溶胀构筑大孔β-环糊精微球及其 芦丁吸附性能研究 ,工程科学与技术,2023,第55卷 第5期DOI:10.15961/j.jsuese.202201050
(20)Liangzhi Qiao, Qincong Li,Jiao Xie*, Kaifeng Du*Multi-size optimization of macroporous cellulose beads as protein anion exchangers: Effects of macropore size, protein size, and ligand length, Journal of Chromatography A. 2023,1702, 464068;
(21)Liangzhi Qiao, Qing Zhou, Kaifeng Du*, Protein adsorption to diethylaminoethyl-dextran grafted macroporous cellulose microspheres: A critical pore size for enhanced adsorption capacity and uptake kinetic,Separation and Purification Technology, 314 (2023) 122112. 123588
Liangzhi Qiao , Weiyu Zhou , Kaifeng Du *,Rigid crosslink improves the surface area and porosity of β-cyclodextrin beads for enhanced adsorption of flavonoids,Food Chemistry, 439 (2024) 138081 https://doi.org/10.1016/j.foodchem.2023.138081
(23)Liangzhi Qiao, Yikai Pan, Jiao Xie, Kaifeng Du*, Sequential diethylaminoethyl dextran-grafting and diethylaminoethyl modification improve the adsorption performance of anion exchangers Journal of Chromatography A. 2023,1702, 464068; .
专利4篇:
(1)杜开峰、乔亮智、赵良燊,一种多级孔甲壳素材料的制备方法,授权公告号CN 111040234 B(2021年授权)
(2)杜开峰、乔亮智,一种高比表面积壳聚糖微球制备方法,授权公告号CN 112175228 B (2021年授权)
(3)杜开峰、乔亮智,一种纤维素辅助碳纳米管的分散方法,专利号2020114843287(2022年授权)
(4)杜开峰、乔亮智,一种纳米淀粉修饰大孔多糖色谱介质的制备方法,专利号202211156657.8 (2023年10月授权)
专著1篇:
(1)Kaifeng Du*, Liangzhi Qiao. Medical Textiles from Natural Resources. Biotextile-based adsorbents for medical applications (Part 1.4). Elsevier, Paperback ISBN: 9780323904797.