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中国科学院宁波材料技术与工程研究所导师教师师资介绍简介-马松琪博士/研究员/博士生导师

本站小编 Free考研考试/2021-04-17


马松琪,博士,研究员,博士生导师。1983年5月出生,2011年底在中科院广州化学所提前半年毕业,获高分子化学与物理专业博士学位,并获中国科学院院长优秀奖。随后来中科院宁波材料所工作,曾赴香港理工大学做Project Fellow、美国北达科他州立大学有机涂料领域顶级专家Dean Webster 教授课题组从事博士后研究。入选中科院青年创新促进会会员、宁波市领军和拔尖人才培养工程第三层次、中科院材料所“春蕾”人才。长期从事热固性高分子设计合成及改性研究,作为项目负责人承担国家基金面上项目(3项)、国家基金青年科学基金、浙江省公益类项目等10余项课题,已在Prog. Polym. Sci., Macromolecules, Green Chem., J. Mater. Chem. A, ChemSusChem, ACS Sustain. Chem. Eng., Polymer等期刊上发表论文86篇,申请专利48项(1项PCT专利,1项美国专利),已授权36项。担任J. Renew. Mater.(SCI)和Curr. Green Chem.编委,Materials主题编辑及NatureNat. Sustain.Green Chem.Macromolecules等40家SCI期刊审稿人。研究领域及兴趣:可持续(可回收和基于生物可再生资源)及功能型热固性树脂研究,目的是使得到的这些新型树脂具有与常用的传统热固性树脂相当甚至更高的性能。具体研究领域如下:1. 可控降解热固性树脂;2. 基于动态共价键的可重塑热固性树脂;3. 生物基热固性树脂;4. 本征绿色阻燃型热固性树脂;5. 热固性高分子结构与性能关系;6.热固性树脂在复合材料及涂料领域的应用研究。
办公室:C405 电话:邮箱:masongqi@nimte.ac.cn
个人主页:http://masongqi.polymer.cn
代表性论文:
(1)Scalable and facile synthesis of acetal covalent adaptable networks with readily adjustable properties,European Polymer Journal,2021,通讯作者
(2)Biosourced Acetal and Diels–Alder Adduct Concurrent Polyurethane Covalent Adaptable Network,Macromolecules,2021,通讯作者
(3)High-performance bio-based epoxies from ferulic acid and furfuryl alcohol: Synthesis and properties,Green Chemistry,2021,通讯作者
(4)Catalyst-free malleable, degradable, bio-based epoxy thermosets and its application in recyclable carbon fiber composites,Composites Part B: Engineering,2021,通讯作者
(5)Phosphate-based covalent adaptable networks with recyclability and flame retardancy from bioresources,European Polymer Journal,2021,通讯作者
(6)Upcycling of Polyethylene Terephthalate to Continuously Reprocessable Vitrimers through Reactive Extrusion,Macromolecules,2021,通讯作者
(7)Facile Preparation of Polyimine Vitrimers with Enhanced Creep Resistance and Thermal and Mechanical Properties via Metal Coordination,Macromolecules,2020,通讯作者
(8)Dihydrazone-based Dynamic Covalent Epoxy Networks with High Creep Resistance, Command Degradability, and Intrinsic Antibacteria from Bioresources,Journal of Materials Chemistry A,2020,通讯作者
(9)High-performance, Bio-based, Degradable polyurethane thermoset and its Application in Readily Recyclable Carbon Fiber Composites,ACS Sustainable Chemistry and Engineering,2020,通讯作者
(10)Dynamic Transfer Auto-catalysis of Epoxy Vitrimers Enabled by the Carboxylic Acid/epoxy Ratio based on Facilely Synthesized Trifunctional Monoesterified Cyclic Anhydrides,European Polymer Journal,2020,通讯作者
(11)Preparation of Non-Planar-Ring Epoxy Thermosets Combining Ultra-Strong Shape Memory Effects and High Performance,Macromolecular Research,2020,通讯作者
(12)Facile synthesis of “digestible”, rigid-and-flexible, bio-based building block for high-performance degradable thermosetting plastics,Green Chemistry,2020,通讯作者
(13)Green and Facile Preparation of Readily Dual-Recyclable Thermosetting Polymers with Superior Stability Based on Asymmetric Acetal,Macromolecules,2020,通讯作者
(14)Concurrent thiol-ene competitive reactions provide reprocessable, degradable and creep-resistant dynamic-permanent hybrid covalent networks,Green Chemistry,2020,通讯作者
(15)Conductive vitrimer nanocomposites enable advanced and recyclable thermo-sensitive materials,Journal of Materials Chemistry C,2020,通讯作者
(16)Facile Catalyst-free Synthesis, Exchanging, Hydrolysis of Acetal Motif for Dynamic Covalent Networks,Journal of Materials Chemistry A,2019,通讯作者
(17)高模量高Tg可降解环氧树脂的合成及性能研究,粘接,2019,通讯作者
(18)Facile in-situ preparation of high-performance epoxy vitrimers from renewable resources and its application in nondestructively recyclable carbon-fiber composites,Green Chemistry,2019,通讯作者
(19)Readily recyclable carbon fiber reinforced composites based on degradable thermosets: A Review,Green Chemistry,2019,通讯作者
(20)Readily Recyclable, High-performance Thermosetting Materials based on a Lignin-derived Spiro Diacetal Trigger,Journal of Materials Chemistry A,2019,通讯作者
(21)Sustainable valorization of lignin with levulinic acid and its application in polyimine thermosets,Green Chemistry,2019,通讯作者
(22)High-performance, Command-degradable, Antibacterial Schiff Base Epoxy Thermosets: Synthesis and Properties,Journal of Materials Chemistry A,2019,通讯作者
(23)Vanillin‐derived phosphorus‐containing compounds and ammonium polyphosphate as green fire‐resistant systems for epoxy resins with balanced properties,Polymers for Advanced Technologies,2019,通讯作者
(24)Synthesis of Fully Bio-based Diepoxy Monomer with Dicyclo Diacetal for High-performance, Readily Degradable Thermosets,European Polymer Journal,2019,通讯作者
(25)Degradable thermosets based on labile bonds or linkages: a review,Progress in Polymer Science,2018,第1作者
(26)Research Progress on Vanillin-based Thermosets,Current green chemistry,2018,通讯作者
(27)Comparison of Hydrogenated Bisphenol A and Bisphenol A Epoxies: Curing Behavior, Thermal and Mechanical Properties,Macromolecular Research,2018,通讯作者
(28)Robust, Fire-safe, Monomer-recovery, Highly Malleable Thermosets from Renewable Bioresources,Macromolecules,2018,通讯作者
(29)Hexahydro-s-triazine: a trial for acid-degradable epoxy resins with high performance,ACS Sustainable Chemistry & Engineering,2017,通讯作者
(30)Itaconic acid as a green alternative to acrylic acid for producing soybean oil-based thermoset: synthesis and properties,ACS Sustainable Chemistry & Engineering,2017,通讯作者
(31)UV-thermal Dual Cured Anti-bacterial Thiol-ene Networks with superior performance from Renewable Resources,Polymer,2017,通讯作者
(32)Effects of solvents on the curing and properties of fully bio-based thermosets for coatings,Journal of Coatings Technology and Research,2017,第1作者
(33)Vanillin-Derived High-Performance Flame Retardant Epoxy Resins: Facile Synthesis and Properties,Macromolecules,2017,通讯作者
(34)2, 5-Furandicarboxylic acid and Itaconic acid Derived Fully Bio-based Unsaturated Polyesters and their Cross-linked Networks,Industrial & Engineering Chemistry Research,2017,通讯作者
(35)Bio-based shape memory epoxy resin synthesized from rosin acid,Iranian Polymer Journal,2016,通讯作者
(36)衣康酸基环氧树脂降解性能研究,粘接,2016,通讯作者
(37)Hard and flexible, degradable thermosets from renewable bioresources with the assistance of water and ethanol,Macromolecules,2016,第1作者
(38)Research progress on bio‐based thermosetting resins,Polymer International,2016,第1作者
(39)植物油基紫外光(UV)固化涂料研究进展,涂料工业,2016,通讯作者
(40)Naturally Occurring Acids as Cross-Linkers To Yield VOC-Free, High-Performance, Fully Bio-Based, Degradable Thermosets,Macromolecules,2015,第1作者
(41)Polyesters derived from itaconic acid for the properties and bio-based content enhancement of soybean oil-based thermosets,Green Chemistry,2015,通讯作者
(42)High Bio-based content waterborne UV-curable coatings with excellent adhesion and flexibility,Progress in Organic Coatings,2015,通讯作者
(43)Synthesis of bio-based unsaturated polyester resins and their application in waterborne UV-curable coatings,Progress in Organic Coatings,2015,通讯作者
(44)Synthesis and Properties of a Bio-based Epoxy Resin with High Epoxy Value and Low Viscosity,Chemsuschem,2014,第1作者
(45)生物基环氧树脂的研究进展,粘接,2014,第1作者
(46)Bio–based tetrafunctional crosslink agent from gallic acid and its enhanced soybean oil-based UV-cured coatings with high performance,RSC Advances,2014,第1作者
(47) Synthesis and properties of phosphorus-containing bio-based epoxy resin from itaconic acid,Science China Chemistry,2014,第1作者
(48)Bio-based epoxy resin from itaconic acid and its thermosets cured with anhydride and comonomers,Green Chemistry,2013,第1作者
英文简历:
Prof.Dr.Songqi Ma
Ningbo Institute of Materials Technology & Engineering, Chinese Academy of Sciences
Tel: 86-574-876198 E-mail: masongqi@nimte.ac.cn
Address: Room C405 No. 1219 Zhongguan West Road Zhenhai District Ningbo City Zhejiang Province 315201 P.R. China
Dr. Songqi Ma is a full professor focusing on sustainable thermosetting materials in Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences (CNITECH). He earned his PhD from Guangzhou Institute of Chemistry, Chinese academy of sciences in 2011. He used to work as Project Fellow and Postdoc in Hong Kong Polytechnic University and North Dakota State University. He has long been engaged in thermosetting materials, and has published 86 peer-reviewed papers in Progress in Polymer Science,Macromolecules, Green Chemistry,Journal of Materials Chemistry A, ChemSuschem, etc. and 48 patents. He is one of the editorial board members of Journal of Renewable Materials and Current Green Chemistry, and invitation reviewers for 40 SCI journals such as Nature, Nat. Sustain., Macromolecules, Green Chem., ChemSusChem, Polym. Chem., ACS Sustain. Chem. Eng. etc.Research Areas: Synthesis and properties of sustainable and functional thermosets with comparable properties with or even better properties than commonly used conventional thermosets. Specific areas of focus are: 1) Controlled degradable thermosets; 2) Remoldable thermosets based on dynamic covalent bonds; 3) Thermosets from renewable resources; 4) Intrinsic green flame retardant thermosets; 5) Structure-property relationships; 6) The application of the synthesized thermosets in composites and coatings.
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