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朱万诚教授简介

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(工学博士/教授,无机化学专业硕士生导师)

学到老,跑到老,健康工作五十年

* 联系方式:

   Tel: +86-537-4453130(O);Email: zhuwancheng@tsinghua.org.cn

   Add.: 山东省曲阜市静轩西路57号,曲阜师范大学化学与化工学院化学工程教研室(邮编:273165) 

* 讲授课程:

   化工原理、化学工程与工艺专业英语(英文授课)、无机材料合成、化工原理实验 

* 受教育经历:

   2004/09 – 2008/06  清华大学化学工程系,工学博士,导师朱慎林/向兰教授

   1999/09 – 2002/06  北京化工大学化学工程学院,工学硕士,导师陈建峰教授/王玉红副教授     

   1991/09 – 1995/06  浙江大学化学工程系,工学学士,恩师黄有慧副教授

* 研究工作经历:

   2013/12 – 至今    曲阜师范大学,化学与化工学院化学工程系,教授

   2012/09 – 至今    曲阜师范大学化学工程系兼化学工程教研室主任

   2010/08 – 2012/08  清华大学,化学系,博士后,合作导师王训教授

   2002/07 – 2013/11  曲阜师范大学,化学与化工学院,讲师、副教授

   1995/07 – 1999/08  鲁抗医药股份有限公司,工艺员

* 主要荣誉:

   2015  曲阜师范大学优秀研究生指导教师

   2014  曲阜师范大学优秀共产党员

   2014  “曲园先锋”

   2014  曲阜师范大学优秀工会积极分子

   2008  壳牌优秀博士科研成果奖(2/40)

   2008  清华大学优秀博士学位论文二等奖(2/38)

   2002  北京化工大学优秀毕业研究生、优秀硕士学位论文

   1995  浙江大学优秀毕业生 

* 科研兴趣、经历、自我学术评价

    研究兴趣:低维无机功能材料低成本可控合成、组装及性能;晶体生长与设计;资源高值高效利用。硕士课题:超重力反应结晶法制备微细晶须碳酸钙;博士课题:一维纳米硼酸镁盐的可控制备及机理研究;博后课题:硅酸盐低维纳米结构材料控制合成及性能。

    自我学术评价:严谨,扎实,有效。

* 学术兼职

现为曲阜师范大学第八届学术委员会委员,中国颗粒学会第二届青年理事会青年理事,中国化学会会员,中国科技核心期刊《盐业与化工》常务编委,并曾应邀多次为国际期刊J. Mater. Chem. A, Green Chem., ACS Applied Materials & Interfaces, Chem. Eng. J., CrystEngComm, New J Chem., RSC Advances, J. Alloys and Compd., Powder Technol., Mater. Lett., Particuology, Mater. Sci. Eng. B, Vacuum, J. Nanosci. Nanotech., Chem. Eng. Comm., Energy Conversion & Management,《化工学报》等国际国内知名期刊审稿,并曾担任J. Nanomaterials专刊Low-Dimensional Inorganic Nanofunctional Materials: Design, Assembly, and Application for Chemical Engineering (I)客座编辑。

* 承担课题

    目前主持国家自然科学基金面上项目1项;已结题中国博士后科学基金第五十批面上资助(一等)项目1项,化学工程联合国家重点实验室(清华大学)开放课题2项,山东省优秀中青年科学家奖励基金项目1项,山东省高等学校科技计划项目1项,曲阜师范大学09年度校青年基金项目一项。与清华大学化学工程系&化学系、浙江大学化学工程与生物工程学系、南京大学化学化工学院在科研及研究生联合培养方面具有常年密切合作关系。

经过多年积累建设,所带领的130材料化工实验室已经形成了风格鲜明的130精神:积极、乐观、向上、阳光、互助。

所指导研究生曾获山东省省级优秀毕业研究生(1人)、国家奖学金(2人)、校长奖学金(1人)、校级优秀研究生(2人)、优秀毕业研究生(1人)称号;所指导本科毕设学生曾获山东省优秀学士学位论文(1人)、曲阜师范大学优秀学士学位论文(5人)。

每年拟招收无机化学专业硕士研究生1-2名,本科毕业论文(设计)58名,本科科研训练3-5名。热忱欢迎勤奋、踏实、执着、对化学工程与技术、材料科学与工程、无机化学等领域有浓厚兴趣的有志青年加盟课题组共同进步!

* 科研成果

    NanoEnergy, J. Mater. Chem. A, Carbon, Chem. Eng. J., Cryst. Growth & Des., CrystEngComm, RSC Adv., Nanoscale Res. Lett., Mater. Lett., Powder Technol., J. Cryst. Growth, Chem. Lett. 化学物理学报,化工学报,高校化学工程学报,材料科学与工艺等国内外知名期刊发表学术论文51篇;SCI收录 43篇,其中第一或通讯作者31篇;第一作者EI收录论文5篇;第一或通讯作者国际国内学术会议论文22篇,其中EI收录 1篇,并于2006 8月间先后赴日本仙台、捷克布拉格进行国际会议交流,20136月赴墨西哥坎昆参加国际会议并做邀请报告,20156-7月赴新加坡参加国际学术会议交流并做报告;申请发明专利11项,授权 5项。

一、期刊文章

[51] Chen, X.P.; Zhang, L.L.; Zhang, Z.Q.; Zhu, L.; Zhu, W.C.* Hierarchical Ba2(B5O9)Cl·(H2O)0.5 microspheres: surfactant-assisted facile hydrothermal synthesis, Tb3+ doping and photoluminescent properties. CrystEngComm., 2015, DOI: 10.1039/C5CE01273B. (SCI. IF=4.034) (21276141)

[50] Zhang, Z.Q.; Zhang, H.*; Zhu,L.; Zhang, Q.; Zhu, W.C.* Hierarchical porous Ca(BO2)2 microspheres: Hydrothermal-thermal conversion synthesis and their applications in heavy metal ions adsorption and solvent-free oxidation of benzyl alcohol. Chem. Eng. J. 2016, 283, 1273-1284. (SCI. IF=4.321) (21276141)

[49] Zhang, H.*; Wang, T.; Zhu, W.C.*. Controllable hydrothermal synthesis of star-shaped Sr3Fe2(OH)12 assemblies and their thermal decomposition and magnetic properties. Particuology. 2015 (SCI. IF=2.11) (21276141, Accepted)

[48] 朱万诚*,张恒,周迪,张雨强. 打造温馨科研之家,促师范院校工科专业人才培养.曲阜师范大学学报(自然科学版)2015, 41(3), 115-11821276141.

[47] Zhu, L.; Peng, H.-J.; Liang, J.; Huang, J.-Q.*; Chen, C.-M.; Guo, X.; Zhu,W.C.*; Li, P.; Zhang, Q.* Interconnected carbon nanotube/graphene nanosphere scaffolds as free-standing paper electrode for high-rate and ultra-stable lithium-sulfur batteries. Nano Energy, 2015, 11, 746-755. (SCI. IF=10.325) (21276141)

[46] Zhang, Z.Q.; Zhu,W.C.*; Wang, R.; Zhang, L.; Zhu, L.; Zhang, Q.* Ionothermal confined self-organization for hierarchical porous magnesium borate superstructures as high efficient adsorbents for dye removal. J. Mater. Chem. A. 2014, 2 (45), 19167 - 19179. (SCI. IF=7.443) (21276141, SKL-ChE-12A05)Inside Front Cover

[45] Zhang, L.L.; Zhu,W.C.*; Zhang,H.;Bi,S.W.; Zhang,Q.* Hydrothermal-thermal conversion synthesis of hierarchical porous MgO microrods as efficient adsorbents for lead (II) and chromium (VI) Removal. RSC Adv. 2014, 4(58), 30542-30550. (SCI. IF=3.84) (21276141, SKL-ChE-12A05)

[44] Cui, X.L.; Liu, T.; Zhang, Z.Q.; Wang, L.; Zuo, S.Q.; Zhu,W.C.* Hematite nanorods with tunable porous structure: facile hydrothermal-calcination route synthesis, optical and photocatalytic properties. Powder Technology, 2014266,113-119 (SCI. IF=2.349) <工程类三区>(21276141, SKL-ChE-12A05)

[43] Zhu, L.; Zhu,W.C.*; Cheng, X.-B.; Huang, J.-Q.; Peng, H.-J.; Yang, S.-H.; Zhang, Q.*. Cathode Materials Based on Carbon Nanotubes for High Density Lithium-sulfur Batteries. Carbon 2014,75,161-168. (SCI. IF=6.196) <工程类一区>(21276141)

[42] 张照强; 朱万诚*. 一维纳米硼酸盐研究进展:从基础热力学到工程实践. 化工学报 201465(7):2588-2619(综述). (21276141, SKL-ChE-12A05)

[41] Zhu,W.C.*; Wang, R.G.; Zhu, S.L.; Zhang, L.L.; Cui, X.L.; Zhang, H.; Piao, X.L.; Zhang, Q.*Green Noncorrosive and Easy Scale-Up Hydrothermal-Thermal Conversion: a Feasible Solution to Mass Production of Magnesium Borate Nanowhiskers. ACS Sustainable Chemistry & Engineering. 2014, 2, 836-845. (SCI. IF=4.642) (21276141, SKL-ChE-12A05)

[40] Zhu, W.C.*; Zhang, L.; Tian, G.-L.; Wang, R.; Zhang, H.; Piao, X.; Zhang, Q.* Flux and Surfactant Directed Facile Thermal Conversion Synthesis of Hierarchical Porous MgO for Efficient Adsorption and Catalytic Growth of Carbon Nanotubes. CrystEngComm., 2014, 16, 308-318. (SCI. IF=4.034) (21276141, SKL-ChE-12A05) <晶体学二区>Cover Article

[39] Zhao MQ, Liu XF, Zhang Q, Tian GL, Huang JQ, Zhu WC, Wei F. Graphene/single-walled carbon nanotube hybrids: One-step catalytic growth and applications for high-rate Li-S batteries. ACS Nano 2012, 6(12): 10759–10769.<SCI, IF=12.062, 化学类、工程类、纳米类、物理类一区>

[38] Huang JQ, Liu XF, Zhang Q, Chen CM, Zhao MQ, Zhang SM, Zhu WC, Qian WZ, Wei F. Entrapment of Sulfur in Hierarchical Porous Graphene for Lithium-Sulfur Batteries with High Rate Performance from -40 to 60 oC. Nano Energy. 2013 2(2): 314-321. (SCI检索,新期刊)

[37] Zhang SM, Zhang Q, Huang JQ, Liu XF, Zhu WC, Zhao MQ, Qian WZ, Wei F. Composite Cathode Containing SWCNT@S Coaxial Nanocables: Facile Synthesis, Surface Modification, and Enhanced Performance for Li-ion Storage. Particle & Particle System Characterization. 2013, 30(2): 158-165. (SCI检索,新期刊)

[36] Huang JQ, Zhang Q, Zhang SM, Liu XF, Zhu WC, Qian WZ, Wei F. Carbon nanotube@sulfur coaxial arrays asymmetrically modified by polymer barrier for high efficient sulfur cathodes. Carbon 2013, 58, 99-106. (SCI期刊,IF=5.868,工程类一区)

[35] Cheng XB, Tian GL, Liu XF, Nie JQ, Zhao MQ, Huang JQ, Zhu WC, Hu L, Zhang Q*, Wei F. Robust growth of herringbone carbon nanofibers from layered double hydroxides and their applications as anodes for Li-ion batteries. Carbon 2013, 62, 393-404. (SCI期刊,IF=5.868,工程类一区)

[34] Liu XY, Peng HJ, Zhang Q, Liu XF, Huang JQ, Zhu WC, Wei F. The use of carbon nanotubes and carbon black as conductive pastes in the cathode for Li-ion battery. ACS Sustainable Chemistry & Engineering 2013, DOI: 10.1021/sc400239u. (SCI检索,新期刊)

[33] Zhang, C.; Zhu, W.C.; Li, S.; Wu, G.; Ma, X.; Wang, X.; Gong, J. Sintering-resistant Ni-based reforming catalysts obtained via the nanoconfinement effect. Chem. Commun., 2013, 49, 9383-9385. (SCI. IF=6.38)<化学类二区>

[32] Zhu, W.C.*; Cui, X.; Liu, X.; Zhang, L.; Huang, J-Q.; Piao, X.; Zhang, Q.*. Hydrothermal evolution, optical and electrochemical properties of hierarchical porous hematite nanoarchitectures. Nanoscale Res. Lett.,2013, 8:2. (SCI. IF=2.524)(21276141, SKL-ChE-12A05) <材料类二区>

[31] Zhu, W.C.*; Zhang, X.; Zhang, Q.;Xiang, L.; Zhu, S. Subunit contribution model for borates thermodynamic properties and its application in the hydrothermal synthesis of MgBO2(OH) nanowhiskers. CIESC Journal, 2013, 64(2):443-451. (In Chinese)

朱万诚, 张学一, 张强, 向兰, 朱慎林. 硼酸盐热力学基元贡献模型及在MgBO2(OH)纳米晶须水热合成过程分析中应用. 化工学报,2013, 64(2):443-451.(21276141) (EI收录)

[30] Long, Y.; Hui, J.F.; Wang, P.P.; Xiang, G.L.; Xu, B.; Hu, S.; Zhu, W.C.;Lv, X.Q.; Zhuang, J.; Wang, X. Hydrogen Bond Nanoscale Networks Showing Switchable Transport Performance. Scientific Report. 2012, DOI: 10.1038/srep00612.

[29] Liu, X.; Huang, J.-Q.; Zhang, Q.*; Liu, X.-Y.; Peng, H.-J.; Zhu, W.C.*; Wei, F.* N-Methyl-2-pyrrolidone-assisted solvothermal synthesis of nanosize orthorhombic lithium iron phosphate with improved Li-storage performance. J. Mater. Chem., 2012, 22, 18908. (SCI. IF=6.10) <化学类二区>

[28] Liu, X.; Zhu, W.C.*; Cui, X.; Liu, Tao.; Zhang, Q. Facile thermal conversionroute synthesis, characterization, and optical properties of rod-like micron nickel borate. Powder Technol., 2012, 222, 160-166. (SCI. IF=2.024) <工程类三区>

[27] Zhu, W.C.*; Liang, Z.; Liu, X.; Zhang, H.; Zheng, Y.; Piao, X.; Zhang, Q. Soft-template self-assembly of hierarchical mesoporous SrCO3 by low-temperature hydrothermal route and their application as adsorbents for methylene blue and heavy metal ions. Powder Technol.,2012, 226, 165-172. (SCI. IF=2.024) <工程类三区>

[26] Zhu, W.C.; Yang, Y.; Hu, S.; Xiang, G.; Xu, B.; Zhuang, J.; Wang X*. (Ni,Mg)3Si2O5(OH)4 Solid-Solution Nanotubes Supported Sub-0.06 wt% Pd as Robust High Efficiency Catalyst for Suzuki-Miyaura Cross-Coupling Reactions. Inorg. Chem., 2012, 51, 6020-6031. (SCI. IF=4.593)<化学类二区>

[25] Zhu, W.C.*; Zhang, X.; Wang, X.L.; Zhang, H.; Zhang, Q.*; Xiang, L. Short Belt-like Ca2B2O5·H2O Nanostructures: Hydrothermal Formation, FT-IR, Thermal Decomposition, and Optical Properties. J. Cryst. Growth, 2011, 332, 81-86. (SCI. IF=1.726) <材料类三区>

[24] Zhu, W.C.*; Wang, X.L.; Zhang, X.; Zhang, H.; Zhang, Q.*. Hierarchical Laminar Superstructures of Rhombic Priceite (Ca4B10O19·7H2O): Facile Hydrothermal Synthesis, Shape Evolution, Optical and Thermal Decomposition Properties. Cryst. Growth & Des.,2011, 11, 2935-2941. (SCI. IF=4.72)<化学类二区>

[23] Zhu, W.C.*; Zhang, L.Y.; Cui, X.L.; Zhang, Q.* Efficient Synthesis of Orthorhombic Lithium Borate Hydroxide Micro-rods and their Thermal Conversion to Lithium Borate. Powder Technol.,2011, 210, 67-72. (SCI. IF=2.08)<工程类三区>

[22] Zhu, W.C.*; Zhang, Q.; Xiang, L.*; Zhu, S. Repair the Pores and Preserve the Morphology: Formation of High Crystallinity 1D Nanostructures via the Thermal Conversion Route.Cryst. Growth & Des.,2011, 11, 709-718. (SCI. IF=4.72)<化学类二区>

[21] Zhu, W.C.*; Cui, X.L.; Wang, L.; Liu, T.; Zhang, Q*. Monodisperse porous pod-like hematite: hydrothermal formation, optical absorbance, and magnetic properties. Mater. Lett., 2011, 65, 1003-1006. (SCI. IF=2.307)<材料学三区>

[20] Zhu, W.C.*; Zhang, Q.; Xiang, L.*; Zhu, S. Green Coprecipitation Byproduct Assisted Thermal Conversion Route to Submicron Mg2B2O5 Whiskers. CrystEngComm, 2011, 13, 1654-1663. (SCI. IF=3.842)<化学类二区,晶体学二区>

[19] Zhu, W.C.*;  Zhang, G.L.; Liu, C.M.; Zhang, Q.; Zhu, S. Hierarchical Strontium Carbonate Submicron Spheres Self-assembled under Hydrothermal Conditions. Cryst. Res. Technol., 2010, 45, 845-850. (SCI. IF=0.946)<晶体学四区>

[18]Zhu, W.C.*;Li, G.D.; Zhang, Q.; Xiang, L.*; Zhu, S. Hydrothermal Mass Production of MgBO2(OH) Nanowhiskers and Subsequent Thermal Conversion to Mg2B2O5 Nanorods for Biaxially Oriented Polypropylene Resins Reinforcement. Powder Technol.,2010, 203, 265-271. (SCI. IF=1.887)<工程类三区>

[17] Zhang, Q.; Zhao, M.Q.; Tang, D.M.; Li, F.; Huang, J.Q.; Liu, B.L.; Zhu, W.C.; Zhang, Y.H.; Wei, F. Carbon-Nanotube-Array Double Helices. Angew. Chem. Int. Ed.,2010, 122, 3724-3727. (SCI. IF=12.73)<化学类一区>

[16] Zhu, W.C.*; Zhang, G.L.; Li, J.; Zhang, Q.*; Piao, X.L.; Zhu, S. Hierarchical Mesoporous SrCO3 Submicron Spheres Derived from Reaction-Limited Aggregation Induced “Rod-to-Dumbbell-to-Sphere” Self-Assembly. CrystEngComm, 2010, 12, 1795-1802. (SCI. IF=4.006) <化学类二区>

[15] Zhu, W.C.*; Zhu, S.L.; Xiang, L.* Successive Effect of Rolling Up, Oriented Attachment and Ostwald Ripening on the Hydrothermal Formation of Szaibelyite MgBO2(OH) Nanowhiskers.CrystEngComm,2009, 11, 1910-1919. (SCI. IF=4.183) <化学类二区>

[14] Zhu, W.C.*; Zhang, X.Y; Xiang, L.*; Zhu, S.L. Hydrothermal Formation of the Head-to-head Coalesced Szaibelyite MgBO2(OH) Nanowires. Nanoscale Res. Lett., 2009, 4: 724-731. (SCI. IF=2.894)< 材料类二区>

[13] Zhu, W.C.*; Zhang, Q.; Xiang, L.*; Wei, F.; Sun, X.T.; Piao, X.L.; Zhu, S.L. Flux-assisted Thermal Conversion Route to Pore-free High Crystallinity Magnesium Borate Nanowhiskers at a Relatively Low Temperature. Cryst. Growth & Des.,2008, 8(8): 2938-2945. (SCI. IF=4.215) <化学类二区>

[12] Zhu, W.C.*; Xiang, L.*; Zhang, Q.; Zhang, X.Y.; Hu, L.; Zhu, S.L. Morphology Preservation and Crystallinity Improvement in the Thermal Conversion Route to Magnesium Borate Nanowhiskers at a Relatively Low Temperature. J. Cryst. Growth,2008,310:4262-4267. (SCI. IF=1.757) <晶体学三区>

[11] He, T.B.; Xiang, L.*; Zhu, W.C.; Zhu, S.L. H2SO4-assisted Hydrothermal Preparation of γ-AlOOH Nanorods. Mater. Lett., 2008, 62 (17-18):2939-2942. (SCI. IF=1.748) <材料类二区>

[10] Sun, X.T.; Xiang, L.*; Zhu, W.C.;Liu, Q. Influence of Solvents on the Hydrothermal Formation of Magnesium Hydroxide Fibers. Cryst. Res. Technol., 2008,43(10),1057-1061.(SCI. IF=0.921) <晶体学四区>

[9] Sun, X.T.; Shi, W.T.; Xiang, L.*; Zhu, W.C. Controllable Synthesis of Magnesium Oxysulfate Nanowires with Different Morphologies. Nanoscale Res. Lett.,2008,3(10),386-389.(SCI. IF=1.731) <材料类三区>

[8] Zhu, W.C.; Xiang, L.*; Zhang, X.Y.; Zhu, S.L. Influence of Process Parameters on Hydrothermal Formation of Magnesium Borate Hydroxide Nanowhiskers. Mater. Res. Innov., 2007, 11(4):188-192. (SCI. IF=1.723; EI 9840066)

[7] Zhu, W.C.; Xiang, L.*; He, T.B.; Zhu, S.L. Hydrothermal Synthesis and Characterization of Magnesium Borate Hydroxide Nanowhiskers. Chem. Lett., 2006, 35(10): 1158-1159. (SCI. IF=1.734) <化学类三区>

[6] Zhu, W.C.; Chen, J.; Wang, Y. Experimental study on the synthesis of ultra-fine calcium carbonate whiskers in rotating packed bed reactor. Mater. Sci. & Technol., 2005, 13(1):30-33,+37.(In Chinese)

朱万诚,陈建峰,王玉红,旋转填充床中合成微细晶须碳酸钙的试验研究,材料科学与工艺2005,1, 3(1):30-3, 3+37.(EI.05179069967)

[5] Zhu, W.C.; Chen, J.; Wang, Y. Synthesis and Characterization of Ultra-fine Calcium Carbonate Whiskers in High-Gravity. Chinese J Chem. Phys., 2004, 17(2): 175-178. (In Chinese)

朱万诚,陈建峰,王玉红,超重力环境中合成微细晶须碳酸钙及其表征,化学物理学报,2004,17(2):175-178.(SCI.IF=0.469)

[4] Zhu, W.C.; Chen, J. Progress in synthesis of calcium carbonate whiskers. Modern Chemical Industry, 2004, 24(n suppl.): 21-22+24.(In Chinese)

朱万诚陈建峰,晶须碳酸钙的合成进展,现代化工2004, 24(n suppl.): 21-22+24.(EI.04448437185)

[3] Zhu, W.C.; Chen, J.; Wang, Y. On The Crystal Progress and Product Stability of the Ultrafine Calcium Carbonate Whiskers in High- Gravity Field. J. Qufu Normal Univ., 2003, 29(4): 77-81. (In Chinese)

朱万诚陈建峰,王玉红,超重力场中微细晶须碳酸钙结晶过程及产品稳定性研究,曲阜师范大学学报(自然科学版)2003, 29(4):77-81.

[2] Zhu, W.C.; Wang, Y.; Chen, J. Synthesis of Ultra-fine Needle-like Calcium Carbonate Particles by High-Gravity Reactive Precipitation. J. Chem. Eng. Chinese Univ., 2002, 16(5):560-564. (In Chinese)

朱万诚王玉红,陈建峰,超重力反应结晶法合成微细针状碳酸钙研究,高校化学工程学报2002, 16(5):560-564.

[1] Zhu, W.C.; Wang, Y.; Chen, J.; Shi, Y. Synthesis of ultra-fine needle-like calcium carbonate particles by high-gravity technology and its characterization. J. Beijing Univ. Chem. Technol., 2002,29(5):16-18+24. (In Chinese)

朱万诚王玉红,陈建峰,施用唏,微细针状碳酸钙的超重力法制备及表征,北京化工大学学报2002,29(5):16-18+24. (EI.02497258212)

二、会议文章

[22] 朱万诚. 碱土金属纳米硼酸盐:从基础热力学到定向生长、可控组装及应用开发. 第七届全球华人化工学者研讨会, 天津大学, 天津, 2015.07.12-15, 口头.

[21] Zhang, Z.Q.; Chen, X.P.; Zhu, L.; Zhang, H.; Zhu, W.C.* Alkaline Metal Borates Nanostructures: 1D Preferential Growth, 3D Self-assembly, and Applications in Water Treatment and Catalysis. 8 th International Conference on Materials for Advanced Technologies (ICMAT2015), 28 June-03 July, 2015, Singapore. (Oral)

[20]Zhu,W.C.*. Hydrothermal-thermal conversion route to Mg2B2O5 nanowhiskers: from fundamental thermodynamics to green engineering practice. The 4th International Symposium on Aqua Science and Water Resource (ISASWR2014)Aug. 14-16, 2014, Taiyuan, China. (IL-3-8, 邀请报告, 分会主席) 21276141, SKL-ChE-12A05

[19]朱万诚*, 张照强, 王汝国, 朱山林, 王晓丽, 张晓, 张历云, 张强. /碱土金属硼酸盐:从基础热力学数据估算到绿色水热合成及组装. 第六届全球华人化工学者研讨会,2014,7, 16-19, 香港科技大学(HKUST), 香港, 中国. 21276141, SKL-ChE-12A05

[18] Zhu,W.C.*; Wang, R.; Zhu, S.; Zhang, L.; Zhang, H.; Zhang, Q.* Green, Noncorrosive, Easy Scale-Up Hydrothermal-Thermal Conversion: A Feasible Solution to Mass Production of Magnesium Borate Nanowhiskers. The 7th World Congress of Particle Technology, 19-22, May, 2014, Beijing, China.21276141, SKL-ChE-12A05(E266)

[17] Zhang, L.; Zhu,W.C.*, Zhang, H.; Zhang, Q*. Hydrothermal-thermal conversion synthesis of hierarchical porous MgO microrods as efficient adsorbents for Pb (II) and Cr (VI) removal. The 7th World Congress of Particle Technology, 19-22, May, 2014, Beijing, China. 21276141, SKL-ChE-12A05(E265)

[16] Zhu,W.C.*; Yang, Y.; Hu, S.; Wang, X. (Ni,Mg)3Si2O5(OH)4 Solid-Solution Nanotubes: Controllable Hydrothermal Synthesis and Supported Catalytic Application. The 3rd Conference on Nanomaterials (CN 2014). Jan. 14-15, 2014, Shenzhen, China.21276141, SKL-ChE-12A05(ID 60250)

[15] Zhang, L.; Tian, G.-L.; Wang, R.; Zhang, H.; Piao, X.; Zhang, Q.*; Zhu,W.C.*. Hierarchical Porous MgO: Flux and Surfactant Directed Facile Thermal Conversion Synthesis and Application for Adsorption and Catalytic Growth of Carbon Nanotubes. EnerParticle2013, (3rd Symposium of Particulate Energy Materials, Chinese Particuology Society, 2013年能源颗粒前沿-暨第三届全国能源颗粒材料学术研讨会会议), Dec. 13-15, 2013, Beijing, China.21276141, SKL-ChE-12A05(Poster-22).

[14] Zhang, Z.; Wang, R.; Zhang, L.; Zhu, L.; Nie, Y.; Zhang, Q.*; Zhu, W.*Ionothermal-Thermal Conversion Synthesis and Application of Hierarchical Porous MgBO2(OH)/Mg2B2O5 Superstructures. EnerParticle2013, (3rd Symposium of Particulate Energy Materials, Chinese Particuology Society, 2013年能源颗粒前沿-暨第三届全国能源颗粒材料学术研讨会会议), Dec. 13-15, 2013, Beijing, China.21276141, SKL-ChE-12A05(Poster-11).

[13]朱林、朱万诚、黄佳琦、程新兵、彭翃杰、何濂远、元喆、张强.用于高能量密度的锂硫电池的碳纳米管基正极材料. 2013年能源颗粒前沿-暨第三届全国能源颗粒材料学术研讨会会议, 2013, 12, 13-15, 北京.Poster-27

[12]Zhu,W.C.*; Wang, X.L.; Zhang, X.; Zhang, Q. Calcium borates nanostructures : hydrothermal formation, self-assembly, thermal conversion, and properties. UK-China International Particle Technology Forum IV (UCIPTF IV). Shanghai, China, 2013, Oct. 15-17. 21276141, SKL-ChE-12A05(Oral-ABS039). 

[11]朱万诚*, 王汝国, 朱山林, 张琳琳, 张强.硼酸镁纳米晶须的无腐蚀绿色水热合成及性能. 2013中国化工学会年会9, 23-25, 南京.21276141, SKL-ChE-12A05(化工新材料分会场-Oral).

[10] 朱万诚*, 张琳琳, 张照强, 张强. 纳米结构材料湿化学-热转化法合成过程中的形貌保持及结构调变. 国际化学工程前沿展望-第五届全球华人化工学者研讨会, 2013,7,22-25, 西安.21276141, SKL-ChE-12A05(Oral-67)

[9]Zhu,W.C.*; Zhang, L.; Wang, X.; Zhang, X.; Zhang, Q. Alkaline-earth borates & oxides: wet-chemistry based thermal conversion route synthesis, properties and applications. Collaborative Conference on Crystal Growth (3CG 2013 Meeting), Cancun, Mexico, June 10-13, 2013. (21276141, SKL-ChE-12A05) (Invited, B8, 邀请报告)

[8]张琳琳, 刘晓斐, 田桂丽, 梁作中, 张强, 朱万诚*. 多级多孔氧化镁超结构:热转化合成、形成机制及应用. 中国化学会第28届学术年会2012, 4, 13-16, 成都. (04-P-157).

[7] Zhu, W.C.*; Zhang, G.L.; Wang, X.L.; Zhang, L.Y. Hydrothermal Technology: an Intensified Process for Nanoparticles Growth and Assembly. The International Conference on Process Intensification for Sustainable Chemical Industries (ICPI 2011), June, 26-29, 2011, Beijing, China. (Oral: S1-O-4)

[6] Zhu, W.C.*; Xiang, L.; Zhu, S.L. Formation of pore-free magnesium borate nanowhiskers and their reinforcement for BOPP-D1 resins. 2nd International Solvothermal and Hydrothermal Association Conference (ISHA-2010), Beijing, China, July, 2010. (Oral: 2O-09)

[5] 朱万诚, 向兰, 朱慎林. 水热-焙烧法制备无孔硼酸镁纳米晶须. 中国化学会第27届学术年会, 2010, 6, 20-23, 厦门. (04-P-030)

[4] Zhu, W.C.; Xiang, L.; Zhang, X.Y.; Zhu, S.L. Influence of the precursor on the morphology of MgBO2(OH) nanowhiskers. International conference on nanoscience & technology, China 2007 (ChinaNANO 2007), Beijing, China, June, 2007. (Poster: 1P-502)

[3]朱万诚向兰,朱慎林.一维纳米碱式硼酸镁的形貌演变、择优取向生长及热分解特性. 第三届全国化学工程与生物化工年会,南宁,200611. (Oral: 730)

[2] Zhu, W.C.; Xiang, L.; Zhu, S.L. Hydrothermal synthesis of whisker-like magnesium borate hydroxide (MgBO2(OH))nanoflakes. The 17th international congress of chemical and process engineering (CHISA 2006), Prague, Czech Republic, August, 2006. (Oral: 1009, EI. 074010843467)

[1] Zhu, W.C.; Xiang, L.; He, T.B.; Zhu, S.L. Influence of process parameters on the hydrothermal formation of magnesium borate hydroxide nanowhiskers. International joint meeting of the eighth international symposium on hydrothermal reactions (ISHR-8) and seventh international conference on solvothermal reactions (ISHR & ICSTR 2006), Sendai, Japan, August, 2006. (Poster: P-065)

三、发明专利

[10] 朱万诚,张照强,张恒,朱林,张强. 一种水合及无水多级多孔硼酸钙微球的低温水热-热转化合成方法. 发明专利,申请号:201510198818.3.

[9] 朱万诚,张照强,于游,王汝国,张琳琳,朱林,张强. 一种微球状多孔碱式硼酸镁及硼酸镁纳米超结构的离子热合成方法. 2014.8, 中国, 申请号: 201410399152.3.

[8] 朱万诚王汝国,朱山林,张琳琳,张强.一种无孔高结晶硼酸镁纳米晶须的绿色水热合成方法. 2014.1, 中国,申请号: 201410034281.2,公开号: CN103774208A.

[7] 向兰,朱万诚朱慎林. 一种硼酸镁晶须的水热合成制备方法. 2008.3, 中国, ZL 200610113032.8.

[6] 向兰,朱万诚朱慎林. 一种无孔高结晶硼酸镁晶须的低温熔盐热转化制备方法. 2010.9, 中国, ZL 200810102550.9.

[5] 张学一,朱万诚向兰. 一维微-纳米结构材料特征尺寸测量软件V1.0. 计算机软件著作权登记证书. 登记号: 2007SRBJ1573.

[4] 向兰,何涛波,高立东,朱万诚朱慎林. 一种水热-熔剂工艺制备一维氧化铝纤维的方法. 中国, ZL 200710177969.6.

[3] 魏飞,张强,黄佳琦,朱万诚. 一种基于氧化处理分离碳纳米管阵列与基板的方法. 2010.12, 中国, ZL 200810119666.3.

[2] 魏飞、黄佳琦、张强、刘晓斐、朱万诚. 一种锂离子电池用自支撑柔性碳纳米管纸复合电极材料. 中国, 申请号: 201210046590.2.

[1] 魏飞、黄佳琦、张强、刘晓婓、张书锚、朱万诚. 一种用于锂硫二次电池的定向碳纳米管复合正极材料. 中国, 申请号: 201210046593.6.  

* 座右铭:

   要么不做,做就做好;坦诚做人,用心做事,快乐生活 ^_^

 

* 科研&人生感悟:

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