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逄茂林
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:86-431-85262459
个人主页: http://yjsb.ciac.jl.cn/daoshi_read.php?brow=424&lb=%B5%BC%CA%A6%BC%F2%BD%E9
实验室介绍:
 
个人简历 Personal resume
    中科院长春应用化学研究所研究员、博士生导师。2000年于东北师范大学获得学士学位,2005年于中科院长春应化所获得博士学位,2005年11月-2014年3月期间分别在大阪大学(Ken-ichi Machida教授)、新加坡国立大学(Hua Chun Zeng教授)和阿卜杜拉国王科技大学(Mohamed Eddaoudi教授)做博士后,于2014年3月通过招聘回到中科院长春应化所工作。
    研究兴趣主要包括微纳米材料的形貌控制、自组装,及其在催化、荧光和生物医药领域中的应用。
 
研究方向 Research direction
1、多孔材料的可控制备
2、微纳米材料的形貌控制及自组装
3、探索微纳米材料在生物医药及催化领域中的应用
 
招生信息 Enrollment information
无机、材料或应用化学相关专业,有微纳米材料、多孔材料、催化或生物医用材料的制备和应用的相关研究背景。助学金3000-5500.
 
论文专著 The monograph Researcher ID
1) Synthesis and Integration of Fe-soc-MOF Cubes into Colloidosomes via a Single-Step Emulsion-Based Approach - J. Am. Chem. Soc. - 201307 - 2013, 135, 10234-10237
2) Highly Monodisperse MIII-Based soc-MOFs (M = In and Ga) with Cubic and Truncated Cubic Morphologies - J. Am. Chem. Soc. - 201207 - 2012, 134, 13176-13179
3) Synthesis, Morphological Control and Antibacterial Properties of Hollow/Solid Ag2S/Ag Heterodimers - J. Am. Chem. Soc. - 201007 - 2010, 132, 10771-10785
4) Boosting the antitumor efficacy over a nanoscale porphyrin-based covalent organic polymer via synergistic photodynamic and photothermal therapy - Chem. Commun. - 201905 - 2019, 5, DOI: 10.1039/c9cc0234
5) O2-Loaded pH-Responsive Multifunctional Nanodrug Carrier for Overcoming Hypoxia and Highly Efficient Chemo-Photodynamic Cancer Therapy - Chem. Mater. - 201812 - 2019, 31, 483-490
6) Facile Fabrication of Nanoscale Porphyrinic Covalent Organic Polymers for Combined Photodynamic and Photothermal Cancer Therapy - ACS Appl. Mater. Interfaces - 201903 - 2019, 11, 12321-12326
7) Postsynthetic Ligand Exchange of Metal-Organic Framework for Photodynamic Therapy - ACS Appl. Mater. Interfaces - 201901 - 2019, 11, 7884-7892
8) Ion-Doped Poly(2-Nitro-1,4-Phenylenediamine) Hollow Nanospheres for Photothermal Therapy - ACS Appl. Nano Mater. - 201904 - 2019, 2, 2106-2111
9) One-pot synthesis of DOX@covalent organic framework with enhanced chemotherapeutic efficacy - Chem. Eur. J. - 201902 - 2019, 25, 4315-4319
10) Controllable synthesis of highly monodispersed nanoscale Fe-soc-MOF and the construction of Fe-soc-MOF@polypyrrole core-shell nanohybrids for cancer therapy - Chem. Eng. J. - 201810 - 2019, 358, 369-378
11) Controllable Synthesis of Highly Uniform Nanosized HKUST-1 Crystals by Liquid-Solid-Solution Method - Cryst. Growth Des. - 201901 - 2019, 19, 556-561
12) Facile Preparation of Ion-Doped Poly(p-phenylenediamine) Nanoparticles for Photothermal Therapy - Chem. Commun. - 201804 - 2018, 54, 4862-4865
13) Interfacially synthesized Fe-soc-MOF nanoparticles combined with ICG for photothermal/photodynamic therapy - Dalton Trans. - 201810 - 2018, 47, 16329-16336
14) Self-Templated Stepwise Synthesis of Monodispersed Nanoscale Metalated Covalent Organic Polymers for In Vivo Bioimaging and Photothermal Therapy - Chem. Asian J. - 201707 - 2017, 12, 2183-2188
15) Structure directing agents induced morphology evolution and phase transition from indium-based rho- to sod-ZMOF - CrystEngComm - 201706 - 2017, 19, 4265-4268
16) Effect of modulators on size and shape-controlled growth of highly uniform In-NDC-MOF particles - CrystEngComm - 201703 - 2017, 19, 1875-1878
17) Synthesis of highly monodispersed Ga-soc-MOF hollow cubes, colloidosomes and nanocomposites - Chem. Commun. - 201607 - 2016, 52, 9901-9904
18) Facile Synthesis of Highly Uniform Fe-MIL-88B Particles - Cryst. Growth Des. - 201605 - 2016, 16, 3565-3568
19) Self-Generated Etchant for Synthetic Sculpturing of Cu2O-Au, Cu2O@Au, Au/Cu2O and 3D-Au Nanostructures - Chem. Eur. J. - 201210 - 2012, 18, 14605-14609
20) Highly Ordered Self-Assemblies of Submicron Cu2O Spheres and Their Hollow Chalcogenide Derivatives - Langmuir - 201002 - 2010, 26, 5963-5970
 
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