张吉林
单位：中国科学院长春应用化学研究所稀土资源利用国家重点实验室
地址：吉林省长春市人民大街5625号
邮编：130022
电话：86-
个人主页： http://yjsb.ciac.jl.cn/daoshi_read.php?brow=377&lb=%B5%BC%CA%A6%BC%F2%BD%E9
实验室介绍： http://reru.sklonline.cn/Index.asp


个人简历 Personal resume


张吉林，中科院长春应用化学研究所研究员、博士生导师。主要从事稀土发光材料、多功能纳米结构组装和无机微纳米结构材料的合成及生物医学和环保领域应用方面研究。目前主要研究兴趣是稀土等无机微纳米结构材料及生物医学和环保领域应用研究。现已公开发表论文70余篇，参加国际、国内学术著作章节编写共3章。


研究方向 Research direction


1、微/纳米结构材料及其生物医学和环保领域应用



招生信息 Enrollment information


对科研有兴趣和好奇心。知识背景：无机化学、分析化学、物理化学、应用化学、生物化学和材料化学等专业学生。考试科目：招生简章的规定学生待遇：除了研究生规定的待遇外，按照课题组的制定的规定对论文、专利等研究成果给予奖励其它联系方式：**（手机） zjl@ciac.ac.cn


论文专著 The monograph


1)Simulated calculation of surface acid-base equilibrium constants and surface species distribution of the nanoceria suspension - Applied Surface Science - 2019 - 2019, 495, 143563.
2)Carbon dots for promoting the growth of ZIF-8 crystals to obtain fluorescent powders and their application for latent fingerprint imaging - CrystEngComm - 2018 - 2018, 20, 5056-5060.
3)Pyrophosphate-Imprinted Magnetic Mesoporous SilicaMicrospheres for Recognition, Enrichment and MSDetection of Phosphopeptides - ChemistrySelect - 2017 - 2017, 2(18), 5089-5094.
4)Novel Strategy for Facile Synthesis of C-Shaped CeO2 Nanotubes with Enhanced Catalytic Properties - J. Phys. Chem. C - 2017 - 2017, 121(21), 11926-11931.
5)MnO2 in situ formed into the pores of C-dots/ZIF-8 hybrid nanocomposites as an effective quencher for fluorescence sensing ascorbic acid - RSC Adv. - 2017 - 2017, 7, 16423-16427.
6)C8-modified CeO2//SiO2 Janus fibers for selective capture and individual MS detection of low-abundance peptides and phosphopeptides - J. Mater. Chem. B - 2016 - 2016, 4, 4402-4409.
7)Nitrogen-doped carbon dots as a fluorescence probe suitable for sensing Fe3+ under acidic conditions - New J.Chem. - 2016 - 2016, 40, 10213-10218.
8)Development of the Affinity Materials for Phosphorylated Proteins/Peptides Enrichment in Phosphoproteomics Analysis. - ACS Appl. Mater. Interfaces - 2015 - 2015, 7(16), 8377-8392.
9)Facet-Dependent Effect of Well-Defi ned CeO2 Nanocrystals on the Adsorption and Dephosphorylation of Phosphorylated Molecules - Part. Part. Syst. Charact. - 2015 - 2015, 32(6), 652-660.
10)Surface complexation modeling calculation of Pb(II) adsorption ontothe calcined diatomite - Applied Surface Science - 2015 - 2015, 359, 48-54.
11)Detection analysis of surface hydroxyl active sites and simulationcalculation of the surface dissociation constants of aqueous diatomite suspensions - Applied Surface Science - 2015 - 2015, 327, 453-461.
12)Synthesis and characterization of Fe3O4@YPO4:Eu3+ multifunctional microspheres - Materials Letters - 2015 - 2015, 152, 224-227.
13)Novel core-shell Ce(IV)-Immobilized magnetic polymeric microspheres for selective enrichment and rapid separation of phosphopeptides - J. Colloid. Interface Sci. - 2014 - 2014, 417, 217-226.
14)Novel Ti4+-chelated magnetic nanostructured affinity microspheres containing N-methylene phosphonic chitosan for highly selective enrichment and rapid separation of phosphopeptides - J. Mater. Chem. B - 2014 - 2014, 2 (39), 6886-6892.
15)Magnetic mesoporous silica incorporated with TiO2 for selective and rapid capture of peptides - RSC Adv. - 2014 - 2014, 4(15), 7694-7702.
16)Immobilization of trypsin onto multifunctional meso-/macroporouscore-shell microspheres: A new platform for rapid enzymatic digestion - . Analytica Chimica Acta - 2014 - 2014, 812, 65-73.
17)Magnetic Affinity Microspheres with Meso-/Macroporous Shells for Selective Enrichment and Fast Separation of Phosphorylated Biomolecules - ACS Appl. Mater. Interfaces - 2013 - 2013, 5(8), 3182-3190.
18)REPO4 (RE=La, Nd, Eu) affinity nanorods modified on a MALDI plate for rapid capture of target peptides from complex biosamples. - Chem. Commun. - 2013 - 2013, 49(76), 8492-8494.
19)Yolk-shell magnetic microspheres with mesoporous yttrium phosphate shells for selective capture and identification of phosphopeptides - J. Mater. Chem. B - 2013 - 2013, 1(30), 3661-3669.
20)Magnetic -Fe2O3@REVO4 (RE=Sm, Dy, Ho) affinity microspheres for selective capture, fast separation and easy identification of phosphopeptides - J. Mater. Chem. B - 2013 - 2013, 1(10), 1491-1500.
21)NNovel 3D flowerlike hierarchical gama-Fe2O3@xNH4F.yLuF3 core–shell microspheres tailor-made by a phase transformation process for the capture of phosphopeptides - J. Mater. Chem. B - 2013 - 2013, 1(37), 4845-4854.
22)Synthesis and characterization of the Fe3O4@SiO2-[Eu(DBM)3phen]Cl3 luminomagnetic microspheres. - Materials Letters - 2013 - 2013, 97, 187-190.
23)纳米结构材料富集磷酸化蛋白/多肽用于质谱分析研究进展. - 化学进展 - 2013 - 2013, 25(4), 620-632.
24)Fabrication of novel hierarchical structured Fe3O4@LnPO4 (Ln= Eu,Tb,Er) multifunctional microspheres for capturing and labeling the phosphopeptides - Small - 2012 - 2012, 8(22), 3456-3464.
25)The GO/rGO-Fe3O4 composites with good water-dispersibility and fast magnetic response for effective immobilization and enrichment of biomolecules - Journal of Materials Chemistry - 2012 - 2012, 22(41), 21998-22004.
26)Monodisperse REPO4 (RE=Yb, Gd, Y) hollow microspheres covered with nanothorns as affinity probes for selectively capturing and labeling phosphopeptides - Chemistry - A European Journal - 2012 - 2012, 18(7), 2014-2020.
27)Synthesis of Novel Fe3O4@SiO2@CeO2 microspheres with mesoporous shell for phosphopeptide capturing and labeling - Chem. Commun. - 2011 - 2011, 47 (20), 5732-5734.
28)Synthesis of the Fe3O4@SiO2@SiO2-Tb(PABA)3 luminomagnetic microspheres - Journal of Nanoscience and Nanotechnology - 2011 - 2011, 11(11), 9774-9779.
29)Synthesis and Characterization of [Eu(DBM)3phen]Cl3@SiO2-NH2 Composite Nanoparticles - Journal of Nanoscience and Nanotechnology - 2011 - 2011, 11(11), 9656-9660.
30)Chapter 13 Nonstoichiometri Compounds - Modern Inorganic Synthetic Chemistry (2nd Edition) - 2017 - 2017, Pages 329-354.
31)Chapter 15 Synthetic Chemistry of Nonstoichiometric Compounds - Modern Inorganic Synthetic Chemistry(Book) - 2011 - 2011, Pages321-338.