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张培育
Associate Professor
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Personal Information
  • Name (Pinyin):
    zhangpeiyu
  • E-Mail:
  • Date of Employment:
    2016-07-18
  • School/Department:
    化学与化工学院
  • Education Level:
    With Certificate of Graduation for Doctorate Study
  • Business Address:
    生命北楼207
  • Gender:
    Male
  • Degree:
    Doctor
  • Status:
    Employed
  • Alma Mater:
    中国科学院大学
  • Supervisor of Master's Candidates
Biography

主持国家自然科学基金面上项目、青年项目,入选山东大学“学者未来计划”,参与山东省重点研发计划、山东省自然科学基金重大基础研究等项目。近年来在Journal of Cleaner ProductionACS Macro LettersPolymer Chemistry等相关领域重要期刊发表论文20余篇

Education
  • 2013-09 — 2016-06
    中国科学院过程工程研究所
    化学工艺
    Doctoral Degree in Engineering
  • 2010-09 — 2013-06
    中国科学院过程工程研究所
    化学工程
    Master's Degree in Engineering
  • 2006-09 — 2010-06
    山东大学
    化学工程与工艺
    Bachelor's Degree in Engineering
Publication
Research Direction

1. 胶体与界面化学

Paper Publications

1. 王冬蕾. Hydrogen Bonding-Driven Adaptive Coacervates as Protocells .ACS Applied Materials & Interfaces.2025,17 (4):6095-6102

2. 赵凯杰. Sticktight-inspired PEGylation for low-fouling coatings. .Chemical communications.2022,58 (99):13735-13738

3. 王宁. Vaccination of TLR7/8 Agonist-Conjugated Antigen Nanoparticles for Cancer Immunotherapy .Advanced Healthcare Materials.2023,12 (22)

4. 高至亮. Polypeptide-Based Theranostics with Tumor-Microenvironment-Activatable Cascade Reaction for Chemo-ferroptosis Combination Therapy .ACS Applied Materials & Interfaces.2020,12 (18):20271-20280

5. 耿慧敏. Principles of Cation-πInteractions for Engineering Mussel-Inspired Functional Materials .ACCOUNTS OF CHEMICAL RESEARCH.2022,55 (8):1171-1182

6. . Encapsulation of Monoterpene Phenols in Protein-Stabilized Nanoemulsions for Improved Wound Healing .LANGMUIR.2025

7. 马学彬. Advances in stimuli-responsive injectable hydrogels for biomedical applications .BIOMATERIALS SCIENCE.2024

8. 张训慧. Assembly of Emulsion-Based Cascade Vehicles for Combination Oxygen-Chemotherapy in Diabetic Wound Healing .LANGMUIR.2024

9. 赵凯杰. Synthesis of Antifouling Poly(ethylene glycol) Brushes via Grafting to Approach for Improved Biodistribution .Biomacromolecules.2024

10. 黄至成. Rapid formation of antifouling coatings via cation-π interactions .POLYMER CHEMISTRY.2024,15 (43):4465-4473

11. 张培育. Cascade Reaction of Thiol-Disulfide Exchange Potentiates Rapid Fabrication of Polymer Hydrogels .ACS Macro Letters.2023

12. Kanaparedu P C Sekhar. Biomimetic Hemostatic Powder Derived from Coacervate-Immobilized Thermogelling Copolymers .Biomacromolecules.2023

13. 王倩. Co-delivery of enzymes and photosensitizers via metal-phenolic network capsules for enhanced photodynamic therapy .CHINESE CHEMICAL LETTERS.2022,33 (4):1917-1922

14. 张培育. Integration of Cation–π Interactions with Polyphenols for Super-Hydrophilic Coatings .Advanced Materials Interfaces.2022

15. 马学彬. Effect of Elasticity of Silica Capsules on Cellular Uptake .LANGMUIR.2021,37 (40):11688

16. 赵凯杰. Assembly of catechol-modified polymer brushes for drug delivery .POLYMER CHEMISTRY.2022,13 (3):373

17. 隋海燕. Effect of environmental factors on the emulsion polymerization of nanogels .CHEMICAL PHYSICS LETTERS Journal.2022,790

18. 梅寒笑. Ultrasound expands the versatility of polydopamine coatings* .Ultrasonics - Sonochemistry.2021,74

19. 张贵强. Poly(ethylene glycol)-Mediated Assembly of Vaccine Particles to Improve Stability and Immunogenicity .ACS Applied Materials & Interfaces.2021,13 (12):13978

20. 高至亮. Polypeptide Nanoparticles with pH-Sheddable PEGylation for Improved Drug Delivery .LANGMUIR.2020,36 (45):13656

21. 张培育. Fabrication of Poly(ethylene glycol) Capsules via Emulsion Templating Method for Targeted Drug Delivery .POLYMERS.2020,12 (5):1124

22. 张培育. Surfactant-assistant atmospheric acid leaching of laterite ore for the improvement of leaching efficiency of nickel and cobalt .Journal of Cleaner Production.2019 (228):1

23. 张培育. Leaching Ni and Co from Saprolitic Laterite Ore by Employing Atmospheric Acid Leaching Solution with High Concentration of FeCl3 at Mild Conditions .RUSSIAN JOURNAL OF NON-FERROUS METALS.2020,61 (1):42

24. 张培育. Monodispersity of Poly(ethylene glycol) Matters for Low-fouling Coatings .ACS Macro Letters.2020 (10)

25. 张培育. Reinforcement of the two-stage leaching of laterite ores using surfactants .Frontiers of Chemical Science and Engineering.2020 (7)

26. 张培育. Dual-Stimuli-Responsive Polypeptide Nanoparticles for Photothermal and Photodynamic Therapy .ACS Applied Bio Materials.2019 (3):561

27. 张培育. Monodispersity of Poly(ethylene glycol) Matters for Low-Fouling Coatings .ACS MACRO LETTERS.2020,9 (10):1478

28. 高至亮. Sono-Polymerization of Poly(ethylene glycol)-Based Nanoparticles for Targeted Drug Delivery .2019,8 (10):1285

29. 丁凤 , 郝京诚 , 董明东 , 李强 , 邱晓勇 , 张培育 , 郭建曼 , Jiwei Cui  and Qun Yu. Antifouling and pH-Responsive Poly(Carboxybetaine)-Based Nanoparticles for Tumor Cell Targeting .FRONTIERS IN CHEMISTRY.2019,7

30. 张培育  and 张培育. Leaching Ni and Co from saprolitic laterite ore by employing atmospheric acid leaching solution with high concentration of FeCl3 at mild conditions .RUSSIAN JOURNAL OF NON-FERROUS METALS.2020

31. 张培育  and 张培育. Surfactant-assistant atmospheric acid leaching of laterite ore for the improvement of leaching efficiency of nickel and cobalt .Journal of cleaner production.2019

32. 张培育  and 张培育. 从红土镍矿镍铁渣中分离浸取镍铬工艺 .《过程工程学报》.2013,13 (4):608

33. 张培育  and 张培育. Leaching metals from saprolitic laterite ore using a ferric chloride solution .Journal of Cleaner Production.2015,112 :3531

34. 张培育  and 张培育. Crystallization of gibbsite from synthetic chromate leaching solution in a sub-molten salt process .transactions of nonferrous metals society of china.2015,25 :2734

35. 张培育  and 张培育. Precipitation of α-Fe2O3 and recovery of Ni and Co from synthetic laterite-leaching solutions .Hydrometallurgy.2015,153 :21

36. 张培育  and 张培育. Extraction of metals from saprolitic laterite ore through pressure hydrochloric-acid selective leaching .Hydrometallurgy.2015,157 :149

37. 张培育. Leaching Ni and Co from saprolitic laterite ore by employing atmospheric acid leaching solution with high concentration of FeCl3 at mild conditions .RUSSIAN JOURNAL OF NON-FERROUS METALS.2020

38. 张培育. Surfactant-assistant atmospheric acid leaching of laterite ore for the improvement of leaching efficiency of nickel and cobalt .Journal of cleaner production.2019

39. 张培育. Leaching Ni and Co from saprolitic laterite ore by employing atmospheric acid leaching solution with high concentration of FeCl3 at mild conditions .RUSSIAN JOURNAL OF NON-FERROUS METALS.2020

40. 张培育. Surfactant-assistant atmospheric acid leaching of laterite ore for the improvement of leaching efficiency of nickel and cobalt .Journal of cleaner production.2019

41. 张培育. 从红土镍矿镍铁渣中分离浸取镍铬工艺 .《过程工程学报》.2013,13 (4):608

42. 张培育. Leaching metals from saprolitic laterite ore using a ferric chloride solution .Journal of Cleaner Production.2015,112 :3531

43. 张培育. Crystallization of gibbsite from synthetic chromate leaching solution in a sub-molten salt process .transactions of nonferrous metals society of china.2015,25 :2734

44. 张培育. Precipitation of α-Fe2O3 and recovery of Ni and Co from synthetic laterite-leaching solutions .Hydrometallurgy.2015,153 :21

45. 张培育. Extraction of metals from saprolitic laterite ore through pressure hydrochloric-acid selective leaching .Hydrometallurgy.2015,157 :149

Patents

1. 一种凝胶快速制备方法

2. 一种基于cation-π相互作用的多功能涂层及其制备方法和应用

3. 一种基于阳离子-π作用的超亲水自清洁涂层的制备方法

4. 一种利用表面活性剂促进红土镍矿浸出的方法

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