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- Doctoral Supervisor
- Master Tutor
- Gender:Female
- Education Level:Graduate student graduate
- Alma Mater:武汉理工大学
- Academic Titles:无机学科主任
- Degree:Doctorate
- Status:在岗
- School/Department:化学与材料科学学院
- Date of Employment:2009-08-25
- Discipline:Chemistry
- Business Address:浙江师范大学8幢-219室
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童国秀 女,1973年5月出生,博士,教授,双龙学者,博士生导师,中国化学会会员。2006和2009年先后获得武汉理工大学材料加工工程专业硕士和材料学博士学位。现为浙江师范大学化学与生命科学学院无机学科主任、教授。多年来一直致力于电磁波吸收、屏蔽、导热-吸波一体化材料及超结构材料的研发,主持过国家自然科学基金、省公益、省自然科学基金等各类项目近20项。参与863课题、国家自然基金、省部级项目和军工合作项目10余项。完成“直-XX直升机用雷达吸波材料、高性能水性电磁屏蔽涂料、高吸收低反射新型Fe/C电磁屏蔽复合材料、高效复合吸波材料:聚苯胺/吡咯@碳基磁性微粒、电磁可控高效新型Fe/C磁性复合微波吸收材料、"宽频带-高吸收"免烧吸波瓷砖、高Snoek极限异质纳米磁环、5G毫米波频段新型高效超薄吸波片等系列材料的开发与应用。获得教育部科技成果完成者证书、高等学校科学研究优秀成果奖自然科学奖二等奖等省级以上荣誉近10项。在《Adv. Fun. Mater.》、《Chem. Mater.》、《J. Mater. Chem. A》、《Appl. Phys. Lett.》、《Chem. Eng. J.》、《ACS Appl. Mater. Inter.》国内外权威学术刊物上发表SCI论文百余篇。已申请/授权发明专利四十余项。入选由斯坦福大学John P.A.Ioannidis教授团队发布的全球前2%顶尖科学家“终身科学影响力排行榜(1960-2022)”和“2022年度科学影响力排行榜”两个榜单。培养指导多名硕士研究生、博士研究生和博士后等。同时也是Adv. Fun. Mater., J. Mater. Chem. A, Appl. Phys. Lett., Small, Nanoscale, J. Mater. Chem., Materials Letters, Materials Science and Engineering B, Journal of Physics and Chemistry of Solids, Solid State Sciences, J. Alloy Compd.等期刊审稿人。主讲课程主讲本科课程:无机化学、材料化学、普通化学、无机化学实验主讲硕士研究生课程:功能材料与国防科技、先进功能材料、先进材料化学主讲博士研究生课程:先进材料化学学术兴趣及主要研究方向l 有机-无机纳米复合技术及功能材料l 微波吸收与屏蔽电磁功能材料与超结构l 热管理材料l 光催化材料l 抗菌材料实验室经费充足,招收本科、硕士、博士生,欢迎具有化学、材料复合、超材料等专业背景同学加盟!诚邀相关领域的科研工作者前来访问合作!电子邮箱:tonggx@zjnu.cn科研项目(1) 主持国家自然科学基金“一维磁性铜基核壳纳米材料的表面-界面调控、导热-吸波协同增强机制与性能”( 52073260); 2021.1~2024.12(在研)(2) 主持浙江省科技厅公益技术研究计划/工业项目“面向5G毫米波频段新型高效超薄超轻吸波片的开发与应用”(LGG21E020002); 2021.1~2023.12(在研)(3) 主持金华市科技工业类重点项目“面向5G 毫米波频段新型高效超薄吸波 片的开发与应用”(2019A12238);2021.9~2023.12。(在研)(4) 主持浙江师范大学“名师培养计划”入选者,(在研)(5) 主持浙江师范大学自主设计项目面向5G新型高效导热-吸波一体化材料的研发与应用(2020ZS0401),2021.9~2023.12(在研)15(6) 主持横向合作项目牛墨石墨烯应用科技有限公司“导热-吸波一体化材料的研发与应用” 项目批准号:KYH06Y17180},2022.4.15~2025.4.15。(在研)(7) 主持国家自然科学基金“高Snoek极限异质纳米磁环的制备、微波激励机制与宽频带-高吸收性能”(51672252),2017.1~2020.12。(在研)(8) 主持横向合作项目牛墨石墨烯应用科技有限公司“导热-吸波一体化材料的研发与应用”(KYH06Y17180),2022.4.15~2025.4.15。(在研)(9) 主持横向合作项目浙江三元电子科技有限公司“环氧树脂基雷达吸波剂的研制”(KYH06Y17180},2017.10.15~2018.12.31。(已结题)(10)主持浙江省科技厅公益项目“用钢渣/铁基复合物设计和制备"宽频带-高吸收"免烧吸波瓷砖的研究”(2015C31022),2015.1~2017.12。(已结题)(11) 主持浙江省自然基金项目“电磁可控轻质多孔铁海绵的绿色合成、结构与微波吸收特性”(LY14B010001},2014.1~2016.12。(已结题)(12) 主持国家自然科学基金“电磁可控高效新型Fe/C磁性复合微波吸收材料的研究”(51102215),2012.01~2014.12。(已结题)(13) 主持浙江省自然基金项目“海胆状铁/氧化铁纳微复合粒子的可控制备与电磁特性研究”(Y4100022),2010.6~2012.6。(已结题)(14) 主持金华市科技工业类重点项目“高吸收低反射新型吸波磁砖的开发与应用”(2010A12066),2010.9~2012.12。(已结题)(15) 主持浙江省磁性材料创新团队子项目“片层状Fe/C磁性核壳复合电磁波吸收材料的开发与应用”(2011R09006-06),2010.01~2012.12。(已结题)(16) 参与国家自然科学基金“高效复合吸波材料:聚苯胺/吡咯@碳基磁性微粒的可控制备和性能”(B0105),2011.01~2012.12,(第二)。(已结题)(17) 参与浙江省磁性材料重点创新团队“片层状Fe/C磁性核壳复合电磁波吸收材料的开发与应用”(2009R50006),2009.01~2011.12,(第二)。(已结题)(18) 参与浙江省重大科技专项和优先主题计划“高吸收低反射新型Fe/C电磁屏蔽复合材料的研发与应用”(2010C11053),2010.01~2012.12,(第二)。(已结题)(19)参与国家高科技发展计划项目(863计划)“高性能水性电磁屏蔽涂料的设计与制备研究”(2006AA03Z461),2006.12~2008.12,(第十)。(已结题)(20) 参与中国博士后科学基金项目(一等)“磁场诱导动态流化还原可控制备铁纳米线及电磁性能”(20070420169),2007.12~2009.05,(第三)。(已结题)。(21) 参与教育部新世纪优秀人才支持计划“磁性金属中空纳微粒子的制备、结构与性能研究”(NCET-05-0660),2006.01~2008.12,(第六)。(已结题)。(22) 参与北京航天航空大学横向军工合作项目“直-XX直升机用雷达吸波材料”(200722YB01),2005.1~2006.12,(第二)。(已结题)发表论文、专利和著作发表论文(1) Na He, Minmin Liu, Jiayi Qi, Jiayue Tong, Wen Sao, Xiaochen Yang, Lingxiu Shi, Guoxiu Tong*. Plasmon Resonance Strategy to Enhance Permittivity and Microwave Absorbing Performance of Cu/C Core-Shell Nanowires. CHEMICAL ENGINEERING JOURNAL, 2019, 378, 122160 (IF= 8.3, 一区top)(2) Baoxin Fan, Lu Xing, Kaixia Yang, Yijun Yang, Fanjie Zhou, Guoxiu Tong,* Wenhua Wu, Salt-templated graphene nanosheet foams filled in silicon rubber toward prominent EMI shielding effectiveness and high thermal conductivity, Carbon, 2023 ().(3) Kang Fu, Xinyu Liu, Yujia Yang, Zijian Wang, Wanyi Zhou, Guoxiu Tong,* Xiaojuan Wang, Wenhua Wu. Synchronously enhanced electromagnetic wave absorption and heat conductance capabilities of flower-like porous Al2O3/Ni/C composites.Chem. Eng. J. 2023, (457) 141318.(4) Ran Ji, Lu Xing, Kaixia Yang, Meiwan Ying, Lishan Wu, Guoxiu Tong*, Xiaojuan Wang, Wenhua Wu. Defect and interface co-steering ultra-wide microwave absorption and superior thermal conductance of TiO2/Fe/C nanocomposites. Applied Surface Science 608 (2023) 155207.(5) Baoxin Fan, Lu Xing, Kaixia Yang, Fanjie Zhou, Qianmei He, Guoxiu Tong*, Wenhua Wu. Synergistically enhanced heat conductivity-microwave absorption capabilities of g-C3N4@Fe@C hollow micro-polyhedra via Interface and composition modulation.Chemical Engineering Journal 451 (2023) 138492.(6) 王晶琳, 聂志颖, 杨怡均, 乔儒*, 童国秀*. ZnO/Gd2O3复合中空微球的制备及其电磁性能研究. 中国稀土学报, 2022, DOI: 11.2365.TG.20220727.1754.010.(7) 吴丽珊, 聂志颖, 杨凯霞, 温晓怡, 乔儒*, 童国秀*. ZnO花状微球负载NaYF4:Yb,Tm复合物的制备及电磁性能. 中国稀土学报, 2022, DOI: 11.2365.TG.20220610.0904.004.(8) Xiaofen Yang, Kang Fu, Lishan Wu, Xi Tang, Jinglin Wang, Guoxiu Tong*, Dabo Chen, Wenhua Wu. Synergistic enhancement of thermal conduction and microwave absorption of silica films based on graphene/chiral PPy/Al2O3 ternary aerogels. Carbon, 199 (2022) 1-12.(9) Baoxin Fan, Lu Xing, Qianmei He, Fanjie Zhou, Xiaofen Yang, Tong Wu, Guoxiu Tong* , Dongmei Wang*, Wenhua Wu. Selective synthesis and defects steering superior microwave absorption capabilities of hollow graphitic carbon nitride micro-polyhedrons. Chemical Engineering Journal 435 (2022) 135086(10) Xinxin Wang, Feifei You, Xiaoyi Wen, Kairui Wang, Guoxiu Tong*, Wenhua Wu. Doping Ce(OH)CO3 laminated dendrites with Fe, Co and Ni for defect steered wide-frequency microwave absorption. Chemical Engineering Journal 2022, 445, 136431.(11) Xinxin Wang, Feifei You, Lishan Wu, Ran Ji, Xiaoyi Wen, Baoxin Fan, Guoxiu Tong*, DaBo Chen* Wenhua Wu. Enhanced heat conductance and microwave absorption of 2D laminated Ti3C2Tx MXene microflakes via steering surface, defects, and interlayer spacing. J. Alloys Compd., 2022, 918, 165740, 1-14.(12)Xinxin Wang, Kang Fu, Xiaoyi Wen, Shichao Qi, Guoxiu Tong,* Xiaojuan Wang,* Wenhua Wu. Oxygen vacancy boosted microwave absorption in CeO2 hollow nanospheres. Appl. Surf. Sci., 598 (2022) 153826.(13) Haiyan Wei, Xinxin Wang, Guoxiu Tong,* BaoXin Fan, Xiaojuan Wang and Wenhua Wu. Morphology, size, and defect engineering in CeOHCO3 hierarchical structures for ultra-wide band microwave absorption. Journal of Materials Chemistry C, 2022, 10, 281 – 293.(14) Xiaofen Yang, Baoxin Fan, Xi Tang, Jinglin Wang, Guoxiu Tong*, DaBo Chen*, Jianguo Guan*. Interface modulation of chiral PPy/Fe3O4 planar microhelixes to achieve electric/magnetic-coupling and wide-band microwave absorption. Chem. Eng. J., 2022, 430, 132747.(15) Minmin Liu,1 Liwen Wu,1 Baoxin Fan, Guoxiu Tong,* DaBo Chen,* Wenhua Wu. Governing the Ni content and size of 2D layered C/Ni nanoparticle composites for enhanced electromagnetic wave absorption. Appl. Surf. Sci., 2022, 571, 151273.(16) YANG XiaoFen, FAN BaoXin, WANG XinXin, WU LiShan, YAO QiBin, TONG GuoXiu*, WU WenHua & CHEN DaBo*. HCl guided morphology and conductivity of chiral PPy nanostructures toward efficient electromagnetic wave absorption. SCIENCE CHINA Technological Sciences. 2022, 65(4), 837-848.(17) Xiaofen Yang, Minmin Liu, Yingqi Lan, Lishan Wu, Ran Ji, Guoxiu Tong,* Peijun Gong, Wenhua Wu. Cu2+ induced self-assembly of urchin-like Co1−xCux into hollow microspheres toward wideband and thin microwave absorbers. Chem. Eng. J., 2021, 426: 130779.(18) Xinxin Wang, Haiyan Wei, Xiaoyi Wen, Wenxin Xia, Guoxiu Tong*,† Minmin Liu*, Wenhua Wu. Salt Template-Steered Sintering Synthesis of Flaky C/Co Composites for Ultra-Wide Band Microwave Assimilation. J. Alloys Compd., 2021, 879, 160486.(19) Wen Shao, Minmin Liu, Guoxiu Tong*, Tong Wu*, Tianxi Lv. Adjusting shell composition and content of Co-based bimetal core–shell microspheres toward the broadband microwave absorption. J. Mater. Sci., 2021, 56, 10293–10311.(20) Xiaofen Yang, Baoxin Fan, Xinxin Wang, Xi Tang, Jinglin Wang, Guoxiu Tong*, Xiaojuan Wang,* Weifu Tian. HCl induced structure evolution and dual-frequency broadband microwave absorption of PANI hierarchical microtubes. J. Environ. Chem. Eng., 9 (2021) 105672.(21)Minmin Liu, Xiaofen Yang, Wen Shao, Tong Wu, Ran Ji, Baoxin Fan, Guoxiu Tong*. Superior microwave absorbing properties of O, S, N codoped carbon planar helixes via carbonization of polypyrrole spiral nanowires. Carbon, 2021, 174, 625-637. (22)Minmin Liu, Xiaofen Yang, Wen Shao, Ran Ji, Guoxiu Tong,* Yu Liu, Wenhua Wu. EDA-steered in situ staged reduction–etching synthesis of hollow CuxNi1−x/Ni core–shell composites with broad bands and strong microwave absorption. J. Alloys Compd., 2021, 855, 157326. (23) Chen Jin, Yao Lu, Guoxiu Tong,* Renchao Che, Hualong Xu. Excellent microwave absorbing properties of ZnO/ZnFe2O4/Fe core-shell microrods prepared by a rapid microwave-assisted hydrothermal-chemical vapor decomposition method. Appl. Surf. Sci., 2020, 531, 147353. (24) Liwen Wu, Yao Lu, Wen Shao, Haiyan Wei, Guoxiu Tong,* and Wenhua Wu. Simple Salt-Template Assembly for Layered Heterostructures of C/Ferrite and EG/C/MFe2O4 (M = Fe, Co, Ni, Zn) Nanoparticle Arrays toward Superior Microwave Absorption Capabilities. Adv. Mater. Inter., 2020, 7(18), 2000736(1-14).(25)Yao Lu, Wen Shao, Liwen Wu, Lin Liu, Guoxiu Tong,* and Wenhua Wu. Controllable preparation and broadband high-frequency absorption capabilities of Co fibers and Co/Cu bimetallic core-shell fibers. J. Alloys Compd., 2020, 847, 156509.(26) Minmin Liu, Yue Chen, Haiyan Wei, Lifeng Ke, Guoxiu Tong,* Wenhua Wu. Finely modulating the morphology and composition of CuxNi1−x for enhanced microwave absorption capability. J. Mater. Sci., 2020, 55(27), 12953-12968.(27) Zidong He, Yao Lu, Liwen Wu, Fanqi Wang, Wen Shao, Shihong Fu, Guoxiu Tong*. Combination of EG/Fe/Fe3O4 composites and hollowed out chiral metamaterials toward ultrathin, ultralight, broadband, polarization-insensitive, and wide-angle absorbers. Adv. Mater. Inter., 2020, 2000219, 1-6.(28)Na He, Xiaofen Yang, Lingxiu Shi, Xiaochen Yang, Yao Lu, Guoxiu Tong,* Wenhua Wu. Chemical conversion of Cu2O/PPy core-shell nanowires (CSNWs): a surface/interface adjustment method for high-quality Cu/Fe/C and Cu/Fe3O4/C CSNWs with superior microwave absorption capabilities. Carbon, 2020, 166, 205-217.(29) Zidong He, Liwen Wu, Yu Liu, Yao Lu, Fanqi Wang, Wen Shao, Shihong Fu, Guoxiu Tong*. Ultrawide bandwidth and large-angle electromagnetic wave absorption based on triple-nested helix metamaterial absorbers. J. Appl. Phys., 2020, 127(17): 174901.(30) Na He, Zidong He, Lin Liu, Yao Lu, Fanqi Wang, Wenhua Wu, Guoxiu Tong*. Ni2+ guided phase/structure evolution and ultra-wide bandwidth microwave absorption of CoxNi1-x alloy hollow microspheres. Chem. Eng. J., 2020, 381: 122743.(31)Na He, XiaoFen Yang, Ran Ji, ShiHong Fu, Guoxiu Tong,* Wenhua Wu. Polarization and matching modulation of peapod-like Cu/C nanowires to improve microwave absorption. J. Alloys Compd., 2020: 153633. (32)Na He, Minmin Liu, Jiayi Qi, Jiayue Tong, Wen Sao, Xiaochen Yang, Lingxiu Shi, Guoxiu Tong*. Plasmon Resonance Strategy to Enhance Permittivity and Microwave Absorbing Performance of Cu/C Core-Shell Nanowires. Chem. Eng. J., 2019, 378, 122160.(33) Zidong He, Minmin Liu, Lin Liu, Guoxiu Tong,* Wenhua Wu, and Xiaojuan Wang*. Distinctly Plasmon Resonance Enhanced Microwave Absorption of Strawberry-like Co/C/Fe/C Core–Shell Hierarchical Flowers via Engineering the Diameter and Interparticle Spacing of Fe/C Nanoparticles. RSC Advances 9.39 (2019): 22644-22655.(34) Na He, Zidong He, Lin Liu, Yao Lu, Fanqi Wang, Wenhua Wu, Guoxiu Tong*. Ni2+ guided phase/structure evolution and ultra-wide bandwidth microwave absorption of CoxNi1-x alloy hollow microspheres. Chemical Engineering Journal, 2019, doi.org/10.1016/j.cej.2019.122743(IF= 8.3, 一区top)(35) Lin Liu, Na He, Tong Wu, Panbing Hu, Guoxiu Tong*. Co/C/Fe/C Hierarchical Flowers with Strawberry-like Surface as Surface Plasmon for Enhanced Permittivity, Permeability, and Microwave Absorption Properties. CHEMICAL ENGINEERING JOURNAL, 2019, 335(1), 103–108.(36) Jia Cheng Sun, Zidong He, Wenjing Dong, Wenhua Wu, Guoxiu Tong*. Broadband and strong microwave absorption of Fe/Fe3C/C core–shell spherical chains enhanced by dual dielectric relaxation and dual magnetic resonances, Journal of Alloys and Compounds, 2019, 782(25), 193–202.(37) Lin Liu, Na He, Jiacheng Sun, Panbing Hu, Rujia He, Jinxiu Cheng, Weifu Tian, Guoxiu Tong*. Tailoring impedance match and enhancing microwave absorption of Fe3O4/Bi24Fe2O39/Bi hollow porous microrods by controlling their composition. JOURNAL OF MATERIALS SCIENCE, 2018, 28(5), 575–583.(38) Lin Liu, Zidong He, Yanting Zhao, Jiacheng Sun, Guoxiu Tong. Modulation of the composition and surface morphology of expanded graphite/Fe/Fe3O4 composites for plasmon resonance-enhanced microwave absorption. Journal of Alloys and Compounds 765 (2018) 1218–1227.(39) Chen Jin, Zidong He, Yanting Zhao, Yefei Pan, Wenhua Wu, Xiaojuan Wang,* and Guoxiu Tong*. Controllable Synthesis, Formation Mechanism, and Enhanced Microwave Absorption of Dendritic AgFe Alloy/Fe3O4 Nanocomposites. CrystEngComm, 2018, 20, 1997–2009.(40) Yun Liu, Yiwei Fu, Lin Liu, Wei Li, Jianguo Guan, Guoxiu Tong. Low-Cost Carbothermal Reduction Preparation of Monodisperse Fe3O4/C Core–Shell Nanosheets for Improved Microwave Absorption. ACS Appl. Mater. Interface., 2018, 10(19): 16511–16520.(41) Yanting Zhao, Lin Liu, Jianv Han, Wenhua Wu, and Guoxiu Tong.* Effective modulation of electromagnetic characteristics by composition and size in expanded graphite/Fe3O4 nanoring composites with high Snoek's limit. Journal of Alloys and Compounds, 2017, 728, 100-111.(42)Tong Wu, Yanting Zhao, Yana Li, Wenhua Wu, and Guoxiu Tong.* Controllable Synthesis of CuxFe3-xO4@Cu Core-Shell Hollow Spherical Chains for Broadband, Lightweight Microwave Absorption. CHEMCATCHEM, 2017, 9(18), 3486–3496.(43)Kedan Jiang, Yun Liu, Yefei Pan, Ru Wang, Panbing Hu, Rujia He, Lingli Zhang, Guoxiu Tong.* Monodisperse NixFe3-xO4 nanospheres: Metal-ion-steered size/composition control mechanism, static magnetic and enhanced microwave absorbing properties. Appl. Surf. Sci., 2017, 404, 40–48.(44) Yanting Zhao, Lin Liu, Kedan Jiang, Mengting Fan, Chen Jin, Jianv Han, Wenhua Wu, and Guoxiu Tong.* Distinctly Enhanced Permeability and Excellent Microwave Absorption of Expanded Graphite/Fe3O4 Nanoring Composites. RSC Advance, 2017, 7, 11561–11567.(45) Cui Tingting, Yanting Zhao, Yao Qian, Yali Shao, Mengting Fan, Jiuju Feng, Wenhua Wu, Guoxiu Tong.* Controllable synthesis and formation mechanism of single-crystal b-Co(OH)2 microrings as sensors for detection of nitrite ions. Mater. Chem. Phys., 2017, 193(1), 371–379.(46)Yanting Zhao, Tingting Cui, Tong Wu, Chen Jin, Ru Qiao, Yao Qian, and Guoxiu Tong.* Polymorphous ZnO nanostructures: Zn polar surface-guided size and shape evolution mechanism and enhanced photocatalytic activity. CHEMCATCHEM, 2017, 9(16): 3180–3190.(47) Yanting Zhao, Lin Liu, Tingting Cui, Chen Jin, Guoxiu Tong,* Yao Qian, Wenhua Wu. Enhanced photocatalytic properties of ZnO/reduced graphene oxide sheets (rGO) composites with controllable morphology and composition. Appl. Surf. Sci., 2017, 412(1), 58–68.(48)Yana Li, Tong Wu, Keying Jin, Yao Qian, Naxin Qian, Kedan Jiang, Wenhua Wu, Guoxiu Tong.* Controllable synthesis and enhanced microwave absorbing properties of Fe3O4/NiFe2O4/Ni heterostructure porous rods. Appl. Surf. Sci., 2016, 387: 190–201.(49)YunLiu, Yana Li, Kedan Jiang, Guoxiu Tong,* Tianxi Lv and Wenhua Wu. Controllable synthesis of elliptical Fe3O4@C and Fe3O4/Fe@C nanorings for plasmon resonance-enhanced microwave absorption. J. Mater. Chem. C, 2016, 4 (28): 7316-7323.(50) Yana Li, Tong Wu, Kedan Jiang, Guoxiu Tong,* Keying Jin, Naxin Qian, Leihong Zhao, and Tianxi Lv. Mn2+ induced structure evolution and dual-frequency microwave absorption of MnxFe3−xO4 hollow/porous spherical chains made by a one-pot solvothermal approach. J. Mater. Chem. C, 2016, 4(29): 7119-7129.(51) Yun Liu, Tingting Cui, Tong Wu, Yana Li, Guoxiu Tong.* Excellent microwave absorbing properties of elliptical Fe3O4 nanorings made by a rapid microwave-assisted hydrothermal approach. Nanotechnology, 2016, 27(16): 165707.(52)Guoxiu Tong,* Yun Liu, Tingting Cui, Yana Li, Yanting Zhao, Jianguo Guan. Tunable dielectric properties and excellent microwave absorbing properties of elliptical Fe3O4 nanorings. Appl. Phys. Lett., 2016. 108, 072905.(53) Yun Liu, Tingting Cui, Yana Li, Yucheng Ye, Guoxiu Tong.* Effects of crystal size and sphere diameter on static magnetic and electromagnetic properties of monodisperse Fe3O4 microspheres. Mater. Chem. Phys., 2016, 173: 152–160.(54) Tong Wu, Yun Liu, Tingting Cui, Yanting Zhao, Yana Li, Guoxiu Tong.* Facile hydrothermal synthesis of Fe3O4/C core-shell nanorings for efficient low-frequency microwave absorption, ACS Appl. Mater. Interfaces, 2016, 8(11): 7370-7380.(55) Yucheng Ye, Yanting Zhao, Liuliu Ni, Kedan Jiang, Guoxiu Tong,* Yuling Zhao, Botao Teng.* Facile synthesis of unique NiO nanostructures for efficiently catalytic conversion of CH4 at low temperature. Appl. Surf. Sci., 2016, 362, 20–27.(56) Chaoli Tong, Yun Liu, Fangfang Du, Guoxiu Tong,* Liangchao Li. Enhanced microwave electromagnetic characteristics of porous ZnO/Ni/ZnxNiyFe3−x−yO4 hybrid micro-hexahedra. Mater. Chem. Phys., 2015, 163, 1-10.(57)Guoxiu Tong,* Yun Liu, Fangting Liu, and Jianguo Guan. Facilely gas-flow-induced CVD synthesis and tunable electromagnetic characteristics of centipede-shaped iron/cementite/multiwalled carbon nanotube (Fe/Fe3C/MWCNT) heterostructures.Surf. Coat. Tech., 2015, 283, 286-297.58)Guoxiu Tong,* Yun Liu, Tong Wu, Yucheng Ye, Chaoli Tong. High-quality elliptical iron glycolate nanosheets: selective synthesis and chemical conversion into FexOy nanorings, porous nanosheets, and nanochains with enhanced visible-light photocatalytic activity. Nanoscales, 2015, 7, 16493–16503.(59) Guoxiu Tong,* Yun Liu, Tong Wu, Chaoli Tong, and Fangfang Du. H2O-Steered size/phase evolution and magnetic property of large-scale, monodisperse FexOy nanomaterials, J. Mater. Chem. C, 2015, 3, 5506-5515.(60) Junhai Shen, Jiantao Feng, Liangchao Li,* Guoxiu Tong, Yabing He. Synthesis and excellent electromagnetic absorbing properties of copolymer (N-methylpyrrole-co-pyrrole) and Ba–Nd–Cr ferrite. J. Alloys Compd., 2015, 632, 490-499.(61) Guoxiu Tong,* Fangting Liu, Wenhua Wu, Fangfang Du and Jianguo Guan. Rambutan-like Ni/MWCNT heterostructures: Easy synthesis, formation mechanism, and controlled static magnetic and microwave electromagnetic characteristics. J. Mater. Chem. A, 2014,2, 7373-7382.(62) Guoxiu Tong,* Yun Liu, Jianguo Guan. In-situ gas bubbles-assisted one-step synthesis of polymorphous Co3O4 nanostructures for lithium ion battery electrodes, J. Alloys Compd., 2014, 601, 167-174.(63)Fangfang Du, Guoxiu Tong,* Chaoli Tong, Yun Liu and Jianqing Tao. Selective synthesis and shape-dependent microwave electromagnetic properties of polymorphous ZnO complex architectures. J. Mater. Res., 2014, 29, 649-656.(64) Guoxiu Tong,* Fangting Liu, Wenhua Wu, Chaoli Tong, Ru Qiao and Huichen Guo. Facile bubble-assisted evaporation-induced assembly of high-density arrays of Co3O4 nano/microlotus leaves: fluorescent properties, drug delivery, and biocompatibility. CrystEngComm, 2014, 16, 1645-1651.(65) Guoxiu Tong,* Fangfang Du, Lingjing Xiang, Fangting Liu, Lulu Mao and Jianguo Guan. Generalized green synthesis and formation mechanism of sponge-Like ferrite micro-polyhedra with tunable structure and composition. Nanoscales, 2014, 6, 778-787.(66) 殷巧巧, 乔儒,* 童国秀. 离子掺杂氧化锌光催化纳米功能材料的制备及其应用. 化学进展,2014, 26, 1619-1632.(67) Guoxiu Tong,* Fangfang Du, Yan Liang, Qian Hu, Ruo-Nan Wu, Jianguo Guan and Xian Hu. Polymorphous ZnO complex architectures: selective synthesis, mechanism, surface area- and Zn-polar plane-codetermining antibacterial activity. J. Mater. Chem. B, 2013, 1, 454-463.(68) Guoxiu Tong,* Fangfang Du, Wenhua Wu, Ruonan Wu, Fangting Liu and Yan Liang. Enhanced reactive oxygen species (ROS) yields and antibacterial activity of spongy ZnO/ZnFe2O4 hybrid micro-hexahedra selectively synthesized through a versatile glucose-engineered co-precipitation/annealing process. J. Mater. Chem. B, 2013, 1, 2647-2657.(69) Guoxiu Tong, Jianguo Guan,* and Qingjie Zhang. In-situ generated gas bubbles-directed self-assembly synthesis, peculiar magnetic and electrochemical properties of vertically aligned arrays of high-density Co3O4 nanotubes. Adv. Funct. Mater., 2013, 23, 2405-2413.(70) Qian Hu, Guoxiu Tong,* Wenhua Wu, Fangting Liu, Haisheng Qian, Jianguo Guan and Danyan Hong. Selective preparation and novel microwave electromagnetic characteristics of polymorphous ZnO architectures made from a facile one-step ethanediamine (en)-assisted hydrothermal approach. CrystEngComm, 2013, 15, 1314-1323.(71) Liangchao Li,* Keyu Chen, Hui Liu, Guoxiu Tong, Haisheng Qian, Bin Hao. Attractive microwave-absorbing properties of M-BaFe12O19 ferrite. J. Alloy. Compd., 2013, 557, 11-17.(72) Xinhui Liu, Jinlin Hu, Jiajia Li, Yong Hu, Yong Shao, Haijian Yang, Guoxiu Tong, Haisheng Qian.* Facile synthesis of Ag2WO4/AgCl nanorods for excellent photocatalytic properties. Mater. Lett., 2013, 91, 129-132.(73) Bin Hao, Liangchao Li,* Yuping Wang, Haisheng Qian, Guoxiu Tong, Haifeng Chen, Keyu Chen. Electrical and microwave absorbing properties of polypyrrole synthesized by optimum strategy. J. Appl. Polym. Sci., 2013, 127, 4273-4279.(74) Guoxiu Tong,* Jinhao Yuan, Wenhua Wu, Qian Hu, Haisheng Qian, Liangchao Li and Jiaping Shen. Flower-like Co superstructures: Morphology and phase evolution mechanism and novel microwave electromagnetic characteristics. CrystEngComm, 2012, 14, 2071-2079.(75) Guoxiu Tong,* Fangting Liu, Wenhua Wu, Jiaping Shen, Xian Hu and Yan Liang. Polymorphous a- and b-Ni(OH)2 complex architectures: Morphological and phasal evolution mechanism and enhanced catalytic activity as non-enzymatic glucose sensors. CrystEngComm, 2012, 14, 5963-5973.(76) Guoxiu Tong,* Qian Hu, Wenhua Wu, Wei Li, Haisheng Qian and Yan Liang. Submicrometer-sized NiO octahedra: facile one-pot solid synthesis, formation mechanism, and chemical conversion into Ni octahedra with excellent microwave absorbing properties. J. Mater. Chem., 2012, 22, 17494-17504.(77) Guoxiu Tong,* Wenhua Wu, Qian Hu, Jinhao Yuan, Ru Qiao and Haisheng Qian. Enhanced electromagnetic characteristics of porous iron particles made by a facile corrosion technique. Mater. Chem. Phys., 2012, 132, 563-569.(78) Keyu Chen, Qingqing Xu, Liangchao Li, Guoxiu Tong, Haisheng Qian, Qiushi Xiao and Feng Xu. Controlled fabrication and electrical-magnetic properties of Poly (OT-co-AN)/Ba0.8 La0.2Al2Fe10O19 composites. Sci. China Technol. Sci., 2012, 55, 6-15.(79) Guoxiu Tong,* Jinhao Yuan, Wenhua Wu, Qinqin Zhang, Xi Cen and Qi Tang. Enhanced static magnetic properties, multiresonance behaviour and novel frequency-selective surface absorption properties of hierarchical flower-like hexagonal close-packed Co superstructures. Micro & Nano Letters. 2012, 7, 492-495.(80) Xinhui Liu, Haisheng Qian,* Yaping Ji, Zhengquan Li, Yong Shao, Yong Hu, Guoxiu Tong, Liangchao Li, Weidong Guo,* Huichen Guo.* Mesoporous silica-coated NaYF4 nanocrystals: facile synthesis, in vitro bioimaging and photodynamic therapy of cancer cells. RSC Adv., 2012, 2, 12263-12268.(81) Jinlin Hu, Haisheng Qian,* Yong Hu, Zhengquan Li, Guoxiu Tong, Taokai Ying, Peijun Gong, Shiyou Hao, Hongbao Zhang and Liangchao Li. Self-assembly of TiO2 composite microspheres: Facile synthesis, characterization and photocatalytic activities. CrystEngComm, 2012, 14, 7118-7122.(82) Guoxiu Tong,* Qiao Hua, Wenhua Wu, Mingyue Qin, Liangchao Li and Peijun Gong. Effect of liquid-solid ratio on the morphology, structure, conductivity, and electromagnetic characteristics of iron particles. Sci. China Technol. Sci., 2011, 54, 484-489.(83) Guoxiu Tong,* Jianguo Guan and Qingjie Zhang. Goethite hierarchical nanostructures: glucose-assisted synthesis, chemical conversion into hematite with excellent photocatalytic properties. Mater. Chem. Phys. 2011, 127, 371-378.(84)Guoxiu Tong,* Jinhao Yuan, Ji Ma, Jianguo Guan, Wenhua Wu, Liangchao Li, Ru Qiao. Polymorphous Fe/FexOy core/shell composites: One-step oxidation preparation, composition control, and static magnetic and electromagnetic characteristics. Mater. Chem. Phys., 2011, 129, 1189-1194.(85) Guoxiu Tong,* Wenhua Wu, Qiao Hua, Yuqing Miao, Jianguo Guan and Haisheng Qian. Enhanced electromagnetic characteristics of carbon nanotubes/carbonyl iron powders complex absorbers in 2–18 GHz ranges. J. Alloys Compd., 2011, 509, 451-456.(86) Guoxiu Tong,* Wenhua Wu, Jianguo Guan, Haisheng Qian, Jinhao Yuan and Wei Li. Synthesis and characterization of nanosized urchin-like a-Fe2O3 and Fe3O4: microwave electromagnetic and absorbing properties.J. Alloys Compd., 2011, 509, 4320-4326.(87) Guoxiu Tong,* Ji Ma, Wenhua Wu, Qiao Ru and Haisheng Qian. Grinding speed dependence of microstructure, conductivity, and microwave electromagnetic and absorbing characteristics of the flaked Fe particles. J. Mater. Res., 2011, 26, 682-688.(88) Guoxiu Tong,* Wenhua Wu, Ru Qiao and Jinhao Yuan. Morphology dependence of static magnetic and microwave electromagnetic characteristics of polymorphic Fe3O4 nanomaterials. J. Mater. Res., 2011, 26, 1639–1645.(89) Guoxiu Tong,* Wenhua Wu, Jianguo Guan, Jianping Wang, Ji Ma, Jinhao Yuan and Sunli Wang. Solution synthesis and novel magnetic properties of ball-chain iron nanofibers. J. Mater. Res., 2011, 26, 2590-2598.(90) Guoxiu Tong,* Mi Hong, Jiangguo Guan, Jinhao Yuan, Wenhua Wu and Haisheng Qian. Enhanced microwave absorption properties of Fe nanotubes fabricated by a facile gas bubble-engaged assembly technique, Micro & Nano Letters, 2011, 6, 722-724.(91) Xing Huang, Jianguo Guan, Zhidong Xiao, Guoxiu Tong, Fangzhi Mou and Xi’an Fan. Flower-like porous hematite nanoarchitectures achieved by complexation–mediated oxidation–hydrolysis reaction. J. Colloid Interf. Sci., 2011, 357, 36-45.(92)Keyu Chen, Liangchao Li,* Guoxiu Tong, Ru Qiao, Bin Hao, Xiaoxi Liang. Fabrication and absorbing property of microwave absorbers based on BaAl2Fe10O19 and poly(o-toluidine). Synthetic Met., 2011, 161, 2192-2198.(93) Chen Xiang, Liangchao Li,* Suyong Jin, Baiqun Zhang, Haisheng Qian and Guoxiu Tong. Expanded graphite/polyaniline electrical conducting composites: Synthesis, conductive and dielectric properties. Mater. Lett., 2010, 64, 131-1315.(94)Haisheng Qian,* Enbo Zhu, Shunji Zheng, Zhengquan Li, Yong Hu, Changfa Guo, Xingyun Yang, Liangchao Li, Guoxiu Tong and Huichen Guo. One-pot synthesis of biocompatible Te@phenol formaldehyde resin core–shell nanowires with uniform size and unique fluorescent properties by a synergized soft–hard template process. Nanotechnology, 2010, 21, 495602-495607.(95) Xi'an Fan, Jianguo Guan,* Zhongzhi Li, Fangzhi Mou, Guoxiu Tong and Wei Wang.One-pot low temperature solution synthesis, magnetic and microwave electromagnetic properties of single-crystal iron submicron cubes. J. Mater. Chem., 2010, 20, 1676-1682. (96) Guoxiu Tong, Jianguo Guan,* Zhidong Xiao, Xing Huang and Yao Guan. In-situ generated gas bubble-assisted modulation of the morphologies, photocatalytic and magnetic properties of ferric oxide nanostructures synthesized by thermal decomposition of iron nitrate. J. Nanopart. Res., 2010, 12, 3025-3037.(97)Guoxiu Tong,* Jianguo Guan, Wenhua Wu, Liangchao Li ande Qiao Hua. Preparation and electrochemical properties of urchin-like α-Fe2O3 nanomaterials, Sci. China Technol. Sci., 2010, 53, 1897-1903.(98) Fangzhi Mou, Jianguo Guan,* Zhigang Sun, Xi-An Fan, Guoxiu Tong. In-situ generated dense shell-engaged ostwald ripening: A facile controlled-preparation for BaFe12O19 hierarchical hollow fiber arrays. J. Solid State Chem., 2010, 183, 736-743.(99) Xi'an Fan, Jianguo Guan,* Wei Wang and Guoxiu Tong. Morphology evolution, magnetic and microwave absorption properties of nano/submicron iron particles reduced at different temperature. J. Phys. D: Appl. Phys., 2009, 42, 75006-75012.(100) Wei Li, Jianguo Guan,* Wei Wang, Guoxiu Tong and Xi’an Fan. Synthesis and formation mechanism of hematite hollow microspheres by a one-pot templateless surfactant-free hydrothermal process. Mater. Chem. Phys. 2009, 118, 496-500.(101) Guoxiu Tong, Jianguo Guan,* Zhidong Xiao, Fangzhi Mou, Wei Wang. In situ generated H2 bubble-engaged assembly: A one-step approach for shape-controlled growth of Fe nanostructures. Chem. Mater. 2008, 20, 3535-3539.发明专利(1) 官建国,童国秀,刘韩星。Co3O4纳米管阵列的制备方法。中国专利。2011-02-09(专利号:ZL200910060852.9)(2) 李良超,童国秀,刘徽,等。高效宽频吸波涂层材料及使用方法。中国专利。2012-07-04(专利号:ZL 200910154722.1)(3) 童国秀,官建国,吴文华,等。海胆状(羟基)氧化铁纳米材料的制备方法。中国专利。(专利号:ZL200910273261.X)2012-05-30(4) 童国秀,吴文华,缪煜清,李良超,等。八面体镍纳微材料的制备方法。中国专利。2011-08-24(专利号:ZL201010100586.0)(5) 童国秀,吴文华,袁进好,李良超,胡倩,马吉,杨幸芸。新型铁/碳纳米管分级纳米复合材料的原位制备方法。中国专利。(2015-12-09专利号:ZL 2011 1 0248537.6)(6) 童国秀,袁进好,吴文华,李良超,等。花状镍/碳纳米管复合材料的制备方法。中国专利。2013-05-15(专利号:ZL 201110167017.2)(7) 钱海生,童国秀,傅熠,陈碧翠,陈丽鲜,祝妍,刘新慧,李良超。一种用于处理染料废水的新型碳材料的低温制备方法。中国专利。2013-05-15(专利号:ZL 201110325076.8)(8) 童国秀,吴文华,洪咪,赵暄。一组海绵状多孔复合氧化物纳微多面体的制备方法。中国专利。2014-09-03(专利号:ZL 201210181327.4)(9) 梁岩,方孝贤,童国秀。除异味抗微生物功能织物的制备方法。中国专利。(专利号:ZL201210339011.3)(10)梁岩,方孝贤,童国秀。净化室内空气污染的饰品。中国专利。2015-05-13(专利号:ZL 201210339034.4)(11)梁岩,方孝贤,童国秀。抗菌液体的制备方法及其应用。中国专利。(申请号:CN201210339012.8)(12)乔儒,殷巧巧,朱兰兰,吴文杰,李苗苗,童国秀。镍掺杂氧化锌分级结构光催化纳米材料及其制备方法。中国专利。2015-12-02(专利号:ZL 201310636925.0)(13)乔儒,殷巧巧,朱兰兰,吴文杰,李苗苗,童国秀。碳包覆金属掺杂氧化锌复合光催化纳米材料及其制备方法。中国专利。(申请号:CN201410370567.8)(14)乔儒,殷巧巧,朱兰兰,吴文杰,李苗苗,童国秀。一种氧化锌基复合光催化纳米材料及其制备方法。中国专利。2015-12-30(专利号:ZL201410081116.2)(15)童国秀,刘云,吴文华,童超丽。一种单分散磁性纳米环及其制备方法与应用。中国专利。2016-07-20(专利号:ZL201510058092.3)(16)童国秀,崔婷婷,刘云,倪镏柳,吴文华。单分散的纳米片和/或纳米环及其制备和应用。中国专利。2016-09-21(专利号:ZL201510292211.1)(17)童国秀,刘云,吴文华,吕天喜。一种多尺度、均一、单分散磁性微球及其制备方法。中国专利。2017-02-22(专利号:ZL201410743688.2)(18)童国秀,李亚娜,崔婷婷,吴文华。一种磁性异质结构纤维及其制备方法与应用。中国专利。2017-04-05(专利号:ZL201510218351.4)(19)童国秀,刘云,崔婷婷,吴文华,李亚娜。单分散梭形纳米片及其制备方法。中国专利。(专利号:ZL201510175533.8)2017-03-22(20)童国秀,刘云,崔婷婷,吴文华。磁性纳米环微波吸收剂的制备与应用。中国专利。2017-05-10(专利号:ZL201510518241.X)(21)童国秀,李亚娜,赵彦婷,金可英,蒋科丹,钱纳新,林建军,吴文华。磁性球链及其制备方法。中国专利。2017-12-22(专利号:ZL201610009916.2)(22)童国秀,赵彦婷,洪华嫦,钱瑶,钱纳新,樊梦婷,吴文华。一种电磁增强碳磁复合材料及其制备方法与应用。中国专利。2017-12-22(专利号:ZL201610587077.2)(23)童国秀,杜芳芳,童超丽,腾波涛,吴文华。一种钴基催化剂及其制备方法与应用。中国专利。(ZL201410743379.5)20180807(24)童国秀,刘云,吕天喜,吴文华。磁性微纳米片及其制备方法与应用。中国专利。2018-04-24(ZL 201510519389.5)(25)童国秀,崔婷婷,李亚娜,钱瑶,邵雅丽,吴文华,乔儒,宫培军。单分散ZnO微纳米材料及其制备方法和应用。中国专利。2018-05-04(ZL201610017745.8)(26)童国秀,赵彦婷,乔儒,金晨,潘叶飞,王茹,吴文华。分级枝状磁性合金材料及其制备方法与应用。中国专利。2018-11-30(ZL201710324083.3)(27)童国秀,刘琳,何茹徍,陈锦绣,胡潘斌,宫培军,乔儒,吴文华。一种单分散铁氧体微纳米片及其制备方法。中国专利。授权号:ZL201710684434.1(28)童国秀,赵彦婷,刘琳,潘叶飞,金晨,王茹,吴文华。一种微波吸收硅藻泥涂料的制备方法及应用。中国专利。授权号:ZL201710684432.2(29)童国秀,赵彦婷,韩佳女,张玲梨,张高川,乔儒,吴文华。碳磁超结构复合材料及其制备方法与应用。中国专利。授权号:ZL201710685853.7(30)宫培军,梁天华,刘振锋,董孟杰,童国秀,乔儒,袁军华,王瑶. 具有增强光动力治疗活性的纳米复合材料及其制备方法, 中国专利。(申请号:CN201810209963.0)(31)童国秀,刘琳,孙嘉诚,乔儒,陈锦绣,宫培军,韩佳女,胡潘冰,吴文华。一种磁性合金中空微球及其制备方法,中国专利。授权号:ZL201810338114.5. (32)童国秀,刘琳,胡潘冰,乔儒,孙嘉诚,宫培军,何茹佳,陈锦绣,吴文华。一种等离子共振电磁增强双金属-介质异质材料及其制备与应用,中国专利。授权号:ZL201810320943.0(33)童国秀,和子栋,王帆琦,陈锡炜,孙嘉诚,郭超,吴文华。一种宽带轻质超材料吸波结构的制备与应用。中国专利。授权号:ZL201810515194.7 (34)童国秀,何娜,童佳悦,戚佳一,陈晨,吴文华。一种核壳异质结构纳米纤维及其制备和应用。中国专利。授权号:ZL201810759685.6。(35)童国秀,刘琳,何茹佳,韩佳女,董雯静,胡潘冰,吴文华,双金属钴基核壳材料及其制备方法与应用。中国专利。授权号:ZL201810949570.3。(36)童国秀,何娜,童佳悦,杨晓晨,邵雯,施灵秀,董雯静,吴文华。一种核壳异质结构磁性纤维及其制备与应用方法。中国专利。授权号:ZL201811068449.6(37) 和子栋,童国秀,陆瑶,王帆琦,陈锡炜,郭超,吴文华。一种手性吸波超材料及其制备与应用。中国专利。授权号: ZL201910095823.X。(38) 童国秀, 刘敏敏, 陈悦, 刘妤, 吴文华. 一种磁性中空微纳米材料及其制备方法与应用, 授权号:ZL201911055153.5。2021-09-21(39)童国秀,刘敏敏,范宝新,季然,吴丽珊,兰应棋,吴文华.一种磁性中空微球及其制备方法与应用. 申请号: CN202011033245.6(40)魏海燕,童国秀,汪欣欣,杨小芬,柯丽凤,季然,吴文华。一种宽带微波吸收剂及其制备工艺与应用。中国专利。申请号: CN202110120146.X.,2022-8-12(41)季然,范宝新,童国秀,陈晨,傅仕红,吴文华. 一种超结构毫米波吸波片及其应用. 中国专利。申请号: CN20210368710.X .2022-8-23(42)童国秀,杨小芬,范宝新,陈大波,吴文华。手性平面螺旋状PPy/Fe3O4复合宽带微波吸收剂及其制备方法与应用,中国专利。授权号: ZL 202110367849.2. 2022-05-31(43)童国秀,范宝新,兰应棋,杨凯霞,何千梅,周凡洁,吴文华. 一种中空结构g-C3N4材料其制备方法与应用,中国专利。申请号: CN202111508119.6.(44) 童国秀、杨小芬、吴丽珊、姚琪彬、吴文华. 一种导热-吸波一体化柔性材料及其制备方法与应用中国专利。申请号: CN202111669432.8.(45) 童国秀、汪欣欣、温晓怡、郦初初、戚世超、王恺瑞、吴文华.一种铈基中空纳米吸波材料及其制备方法与应用. 申请号: CN202210077891.5(46)童国秀、范宝新、季然、邢璐、游菲菲、何千梅、兰应棋、杨凯霞,周凡洁,吴丽珊、姚琪彬、吴文华。一种导热-吸波一体化柔性材料及其制备方法与应用。申请号: CN 202210556270.5(47)童国秀、汪欣欣、廖莜、王恺瑞、姚琪彬、戚世超、郦初初、吴文华。一种铁掺杂铈基导热吸波纳米材料及其制备方法与应用.申请号: CN 2022112749773(48) 童国秀、付康、杨宇佳、王子健、周婉怡、吴文华.一种花状多孔γ-Al2O3@Ni@C复合材料及其制备方法与应用, 申请号: CN 202211275593.3(49) 童国秀、游菲菲、应美玩、朱晨煦、吴文华.一种海绵状多孔MgO/碳纳米管/镍复合材料及其制备方法与应用. 申请号: CN 202211275593.4(50) 童国秀、邢露、何琛琛、沈科杰、夏慧芯、吴文华. 一种3D导通网络结构导热吸波圆盘材料及其制备方法与应用. 申请号: 202310082659.5教材出版(1)童国秀主编,无机化学实验(英汉双语版),科学出版社,2019,8。(978-7-03-061183-3)获奖情况(1) 2008年获“纳米复合雷达吸波涂料”教育部科技成果完成者证书;(2) 2009获武汉理工大学优秀博士论文;(3) 2010年获浙江师范大学优秀“校中青年骨干教师”;(4) 2011获浙江师范大学生化学院教学质量优秀奖;(5)2012获出国留学人员基金(201208330114);(6)2015~2016获浙江师范大学优秀班主任;(7)2018新时代浙江省“千名好支书”。(8)2018年高等学校科学研究优秀成果奖自然科学奖二等奖。(9)2019年浙江省教工委第六届“师德先进个人”。(10)2019年获浙江省第四届高校“最受师生喜爱的书记”。指导学生情况先后指导研究生10人,其中,毕业生6人,2人获国家奖学金、3人获耿儿奖学金、3人获得校优秀毕业生、1人获得省优秀毕业生。指导本科生毕业论文共50余人。指导学生参与各类学生科研项目近20项,其中,国家级项目5项,省级项目4项。指导本科生发第一作者文章8篇,获省级竞赛奖8项,国家金奖1项;2人获耿儿奖学金,2人获国家级奖学金,多人保送北大、复旦等名校或出国深造。指导学生获得省级课题4项,国家级课题7项:(1) 华桥,等。片层状Fe/C磁性核壳复合电磁波吸收材料的开发与应用。2009年浙江省新苗人才计划项目(指导教师1/1);(2) 马吉,等。片状Fe/TiO2核壳多功能复合粒子的选控制备与电磁特性研究。2011浙江省苗人才计划项目(指导教师1/1);(3) 项玲静,等。轻质异质结构海绵的绿色合成及其在微波吸收中的应用。2013国家级大学生创新创业训练计划项目(指导教师1/1);(4) 童超丽,等。多孔钴基杂化催化材料的可控备及其在甲烷低温氧化中的应用。2014国家级大学生创新创业训练计划项目(指导教师1/1);(5) 叶宇城,等。电磁可控轻质多孔Fe3O4/Ni异质纤维的可控制备与微波吸收特性。2015国家级大学生创新创业训练计划项目(指导教师1/1);(6) 蒋科丹,等。用膨胀石墨负载Fe3O4纳米环制备高磁导率、宽频带-高吸收材料的研究。2016国家级大学生创新创业训练计划项目(指导教师1/1);(7) 钱瑶,等。高效水泥基钢渣/木炭复合微波吸波材料的研制。2016浙江省苗人才计划项目(指导教师1/1);(8) 赵彦婷,等。具有微波吸收功能的硅藻泥涂料的研制。2017浙江省苗人才计划项目(指导教师1/1);(9) 金晨,等。电磁可控ZnO/Fe异质纤维的构筑与等离子共振微波吸收特性。2017国家级大学生创新创业训练计划项目(指导教师1/1)。(10) 孙嘉诚,等。双金属异质材料的等离子共振增强机理与“宽频带-轻质-高吸收”微波特性。2018国家级大学生创新创业训练计划项目(指导教师1/1)。(11) 王琦帆,等。基于螺旋超结构“宽频带-高吸收-低反射”吸波磁砖的研发。2019国家级大学生创新创业训练计划项目(指导教师1/1)指导学生参加比赛获奖情况:(1) 2011年5月指导本科生”荣获浙江省第十二届“挑战杯”大学生课外科技作品竞赛三等奖;(2) 2013年5月指导本科生荣获浙江省第十三届“挑战杯”大学生课外学术科技作品竞赛二等奖;(3) 2017年5月指导本科生荣获浙江省第十五届“挑战杯”·富阳大学生课外学术科技作品竞赛三等奖;(4) 2017年8月指导本科生作品荣获第三届省“互联网+”大学生创新创业大赛银奖(6) 2018年5月指导本科生获“创青春”浙江省大学生创业大赛银奖(7) 2018.05 指导本科生”创青...
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