乔亮智
特聘副研究员,相关研究成果以第一作者(含共同一作2篇)在Separation and Purification Technology,Journal of ChromatographyA,Chemical Engineering Journal,Industrial & Engineering Chemistry Research等国际知名化工期刊发表SCI论文26篇,其中JCR一区19篇,SCI他引500余次。撰写EI综述论文2篇,其中《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。申请中国专利9项,授权专利5项。
主要教育经历
·2025年9月-今,华东理工大学,生物工程学院,特聘副研究员
·2024年12月-2025年9月,浙江大学,化学工程与生物工程学院,生物工程,助理研究员
·2023年7月-2024年12月,浙江大学,化学工程与生物工程学院,生物工程,博士后
·2020年9月-2023年7月,四川大学,化学工程学院,化学工程与技术,博士
·2017年9月-2020年7月,四川大学,化学工程学院,制药工程,硕士
·2013年9月-2017年7月,太原工业学院,化学化工学院,制药工程,学士
研究方向
·层析分离基质可控构筑
·层析分离配基理性设计
·层析介质数字化开发
·混合模式层析技术
·连续流层析技术
主要承担科研项目
1.中国博士后面上项目:mRNA层析分离新介质和连续捕获过程强化研究(项目编号:2024M752802)
2.国家资助博士后研究人员项目:mRNA层析分离新介质及其应用基础研究(项目编号:GZC20232269)
3.四川省科技创新苗子工程项目:高性能卟啉基纤维素微球选择性回收电子废物中金元素技术研究与应用(项目编号:22-YCG057)
代表性学术成果
1.Qiao L-Z, Yao S-J, Lin D-Q*. Digital design of chromatographic resins to improve mass transfer for large biomolecules: an exploration of concept. AICHE journal, e70068, 2025.
2.Qiao L-Z, Tong A-K, Liao Y-X, Yao S-J, Lin D-Q*. Quantitative relationships between structure characteristics and mass transfer for chromatographic resin by combining digital material techniques and machine learning algorithms. Chemical Engineering Science, 318:122227, 2025.
3.Qiao, L., Tan, Y. Z., Yao, S. J., & Lin, D. Q. (2024). Pore structure reconstruction to reveal the adsorption capacity limitation of current Oligo-dT resins and guide new resin design. Journal of Chromatography A, 465454.
4.Qiao, L., Pan, Y., & Du, K. (2024). Sequential diethylaminoethyl dextran-grafting and diethylaminoethyl modification improve the adsorption performance of anion exchangers. Journal of Chromatography A, 1730, 465119.
5.Qiao, L., Zhou, W., & Du, K. (2024). Rigid crosslink improves the surface area and porosity of β-cyclodextrin beads for enhanced adsorption of flavonoids. Food Chemistry, 439, 138081.
6.Li, S.1, Qiao, L.1,Hu, J., Zhang, J., Tang, Z., & Du, K. (2024). Macroporous cellulose microspheres with high specific surface area via semi-dissolved chitosan templating for protein separation. Chemical Engineering Science, 300, 120612.
7.Qiao, L., & Du, K*. (2023). Multi-size optimization of macroporous cellulose beads as protein anion exchangers: Effects of macropore size, protein size, and ligand length. Journal of Chromatography A, 1702, 464068.
8.Qiao, L., Du, Y., & Du, K*. (2023). 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, 123588.
9.Qiao, L., Du, Y., & Du, K*. (2022). Grafting diethylaminoethyl dextran to macroporous cellulose microspheres: A protein anion exchanger of high capacity and fast uptake rate. Separation and Purification Technology, 297, 121434.
10.Qiao, L., Liao, Y., Wang, X., Wang, S., & Du, K*. (2022). Double-emulsion templated macroporous cellulose microspheres as a high-performance chromatographic media for protein separation. Cellulose, 29(13), 7263-7276.
11.Qiao, L., & Du, K*. (2022). 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, 1200-1209.
12.Qiao, L., Wang, T., Liao, Y., & Du, K*. (2022). Macroporous chitin microspheres prepared by surfactant micelle swelling strategy for wastewater. Carbohydrate Polymers, 276, 118775. rapid capture of lead (II) from wastewater. Carbohydrate Polymers, 276, 118775.
13.Qiao, L., & Du, K*. (2022). Magnetic field-induced self-assembly of urchin-like polymeric particles: Mechanism, dispersity, and application in wastewater treatment. Separation and Purification Technology, 299, 121742.
14.Qiao, L., Lei, S., & Du, K*. (2021). High-surface-area interconnected macroporous nanofibrous cellulose microspheres: a versatile platform for large capacity and high-throughput protein separation. Cellulose, 28(4), 2125-2136.
15.Qiao, L., Wang, S., & Du, K*. (2021). Macroporous cellulose/carbon nanotube microspheres prepared by surfactant micelle swelling strategy for rapid and high-capacity adsorption of bilirubin. Cellulose, 28(13), 8419-8428.
16.Qiao, L., & Du, K*. (2021). Toluidine blue-immobilized macroporous chitosan microspheres for highly efficient purification of fucoidan. Biochemical Engineering Journal, 176, 108206.
17.Liu, Y.1, Qiao, L.1, Wang, A., Li, Y., Zhao, L., & Du, K*. (2021). Tentacle-type poly (hydroxamic acid)-modified macroporous cellulose beads: Synthesis, characterization, and application for heavy metal ions adsorption. Journal of Chromatography A, 1645, 462098.
18.Qiao, L., Wang, S., Wang, T., Yu, S., Guo, S., & Du, K*. (2021). High-strength and low-swelling chitosan/cellulose microspheres as a high-efficiency adsorbent for dye removal. Cellulose, 28(14), 9323-9333.
19.Qiao, L., Liang, C., & Du, K*. (2021). Homogeneous and stable carbon nanotube dispersion assisted by cellulose in NaOH/thiourea aqueous solution. Cellulose, 28(9), 5421-5431.
20.Qiao, L., Li, S., & Du, K*. (2020). 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, 153, 107412.
21.Qiao, L., Li, Y., Liu, Y., Wang, Y., & Du, K*. (2020). High-strength, blood-compatible, and high-capacity bilirubin adsorbent based on cellulose-assisted high-quality dispersion of carbon nanotubes. Journal of Chromatography A, 1634, 461659.
22.Qiao, L., Li, S., Li, Y., Liu, Y., & Du, K*. (2020). Fabrication of superporous cellulose beads via enhanced inner cross-linked linkages for high efficient adsorption of heavy metalions. Journal of Cleaner Production, 253, 120017.
23.Qiao, L., Zhao, L., & Du, K*. (2020). 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, 393, 124818. (JCR Q1, 2019-2020 年,IF 10.7)
24.Qiao, L., Zhao, L., Ai, H., Li, Y., Liu, Y., & Du, K*. (2019). Diethylaminoethyl-modified magnetic starlike organic spherical adsorbent: fabrication, characterization, and potential for protein adsorption. Industrial & Engineering Chemistry Research, 58(10), 4099-4107.
25.Qiao, L., Zhao, L., Liang, C., & Du, K*. (2019). The construction of porous chitosan microspheres with high specific surface area by using agarose as the pore-forming agent and further functionalized application in bioseparation. Journal of Materials Chemistry B, 7(36), 5510-5519.
26.Kaifeng Du*, Liangzhi Qiao(导师一作学生二作). Medical Textiles from Natural Resources. Biotextile-based adsorbents for medical applications (Part 1.4). Elsevier, Paperback ISBN: 9780323904797.
联系方式
通讯地址:上海市徐汇区梅陇路130号
邮编:200237
E-mail: qiaoliangzhi@foxmail.com