马宗青
金属系
电话： 无
Email： mzq0320@163.com
研究所： 先进金属材料研究所


个人简历 教育背景：

2002.9 – 2006.7 天津大学材料学院 金属材料系 工学学士
2006.9 – 2011.6 天津大学材料学院 金属材料系 工学博士

工作经历：
2017.7-至今 天津大学材料科学与工程学院，特聘研究员
2014.07-2017.6天津大学材料科学与工程学院，副教授
2011.09-2014.06 天津大学材料科学与工程学院，讲师
2013.10-2017.02 澳大利亚Wollongong大学 DECRA项目合作研究
2009.07-2010.10 德国Max Planck金属研究所 项目合作研究


研究方向 研究领域：

粉末冶金、活化烧结、高温合金、超导材料
主要讲授课程：

材料失效分析与寿命预测
材料物理性能


承担项目

序号
项目类型和编号
项目名称
研究起止年月
主持
/参加
项目状态

1
国家优秀青年科学基金项目（No.**）
金属活化低温烧结
2019.1-
2021.12
主持
在研

2
国家自然科学基金面上项目（No. **）
面向等离子体Y₂O₃弥散强化钨基材料复合先驱粉原位制备及其烧结特性
2016.1-
2019.12
主持
在研

3
国家自然科学基金青年项目（No. **）
铁基超导材料原位烧结织构形成机制及其载流能力研究
2014.1-
2016.12
主持
完成

4
ARC- Discovery Early Career Researcher Award（No. DE ）
Microstructure design of second generation MgB₂ superconducting wires for enhancement of critical current
density
2014.4-
2017.3
主持
完成

5
天津市自然科学基金一般项目
（No.18JCYBJC17900）
氧化物弥散强化钨基合金烧结成相机制及组
织调控
2018.4-2021.3
主持
在研

6
天津市自然科学基金青年项目（No. 14JCQNJC03300）
铁基超导材料烧结织构形成技术及其载流性能优化
2014.4-
2017.3
主持
完成

7
教育部博士点基金
（No. 016）
铁基超导体烧结成相过程及动力学机制研究
2013.1-
2015.12
主持
完成





标志性成果 主要学术成就、获奖及荣誉：

· 2017 天津大学“北洋青年****”
· 2016 中国材料研究学会科学技术奖二等奖（第2完成人）
· 2014 澳大利亚Discovery Early Career Researcher Award
DECRA，“澳大利亚优秀青年奖”,
· 2013 天津市优秀博士学位论文
· 2011 天津大学“十佳****”
· 2009 宝钢优秀学生特等奖
发表文章、专利、专著（代表作）：
学术专著与章节
[1] 刘永长，马宗青. MgB₂超导体的成相与掺杂机理.北京，科学出版社，2009年2月，ISBN: 978-7-03-023188-8。(注：刘永长为申请人博士生导师)
[2] Ma ZQ, Liu YC, Chapter 21: Sintering Process and its Mechanism of MgB₂ superconductors in Sintering of Ceramics - New Emerging Techniques, ISBN: 978-953-51-0017-1, InTech - Open Access Publisher, Croatia, 2012/2
[3] Cai Q, Liu YC, Ma ZQ, Chapter 11: Glycine–doped MgB2 superconductors: fabrication, characterization, and properties in Superconductivity: application today and tomorrow. ISBN: 978-1-63483-816-0, Nova Science Publishers, Inc. New York, USA, 2015/11.
学术论文（*为通讯作者）
[1] Ma QS, Peng JM, Ma ZQ*, Cheng F, Lan F, Li C, Yang ZW, Liu CX, Liu YC, Improved grain connectivity and critical current density in ex-situ MgB2 superconductors prepared by two-step sintering, Mater. Chem. Phys. 204 (2018) 62-66
[2] Qiu WB, Ma ZQ*, Patel D, Sang LN, Cai CB, Shahriar AlHossain M, Cheng ZX, Wang XL, Dou SX, The Interface Structure of FeSe Thin Film on CaF₂Substrateand its Influence on the Superconducting Performance. ACS Appl. Mater. Interfaces 9 (2017) 37446- 37453.
[3] Cheng F, Liu YC, Ma ZQ*, Shahriar Al Hossain M, Somer M, The isotope effect of boron on the carbon doping and critical current density of Mg¹¹B₂ superconductors. J. Mater. Chem C 5 (2017) 663-668
[4] Jie H, Qiu WB, Billah M, Mustapic M, Patel D, Ma ZQ*, Gajda D, Morawski A, Cetner T, Shahabuddin M, Yanmaz E, Rindfleisch M, Kim J, Hossain Md Shahriar A*, Superior transport J_(c) obtained in in-situ MgB₂ wires by tailoring the starting materials and using a combined cold high pressure densification and hot isostatic pressure treatment. Scripta Mater. 12 (2017) 79-83
[5] Dong Z, Liu N, Ma ZQ*, Liu CX, Guo QY, Alothman Zeid Abdullah, Yamauchi Y, Shahriar A Hossain Md, Liu YC, Microstructure Refinement in W-Y₂O₃ Alloy Fabricated by Wet Chemical Method with Surfactant Addition and Subsequent Spark Plasma Sintering. Scientific Reports 7 (2017) 6051
[6] Cheng F, Ma ZQ*, Liu CX, Li HJ*, Shahriar A Hossain M, Bando Y, Yamauchi Y, Fatehmulla A, Farooq A, Liu YC. Enhancement of grain connectivity and critical current density in the ex-situ sintered MgB₂ superconductors by doping minor Cu. J. Alloys Compd. 727 (2017) 1105-1109.
[7] Dong Z, Liu N, Ma ZQ*, Liu CX, Guo QY, Liu YC, Preparation of ultra-fine grain W-Y₂O₃ alloy by an improved wet chemical method and two-step spark plasma sintering. J. Alloys Compd. 695 (2017) 2969-2973
[8] Liu YC, Cheng F, Cai Q, Qiu WB, Lu Y, Ma ZQ*, The kinetics mechanism of MgB₂ layer formation within MgB₂ superconducting wire fabricated using improved internal Mg diffusion process. J. Alloys Compd. 697 (2017) 37-42.
[9] Peng JM, Cai Q, Cheng F, Ma ZQ*, Li C, Xin Y, Liu YC, Enhancement of critical current density by a “MgB₂-MgB₄” reversible reaction in self-sintered ex-situ MgB2 bulks. J. Alloys Compd. 694 (2017) 24-29
[10] Dong Z., Liu N., Ma ZQ*, Liu CX, Guo QY, Yamauchi Y, Alamri HR, Alothman ZA, Shahriar A. Hossain ., Liu YC. Synthesis of nanosized composite powders via a wet chemical process for sintering high performance W-Y₂O₃ alloy. Int. J. Refract. Met. H. 69 (2017) 266-272
[11] Qiu WB, Ma ZQ*, Liu YC, Shahriar AlHossain M, Wang XL, Cai CB, Dou SX, Tuning superconductivity in FeSe thin films via Magnesium doping. ACS Appl. Mater. Interfaces 8 (2016) 7891-7896
[12] Liu YC, Cheng F, Qiu WB, Ma ZQ*, Shahriar Al Hossain M, Dou SX, High performance MgB₂ superconducting wires fabricated by improved internal Mg diffusion process at low temperature. J. Mater. Chem C 4 (2016) 9469-9475
[13] Cheng F, Liu YC, Ma ZQ*, Shahriar Al Hossain M, Somer M, Improved Superconducting properties in the Mg¹¹B₂ low activation superconductor prepared by low-temperature sintering. Scientific Reports 6 (2016) 25498
[14] Qiu WB, Jie H, Dipak P, Lu Y, Vladimir L, Arnaud D, Somer M, Shahabuddin M, Kim JH, Ma ZQ*, Dou SX, Hossain Md Shahriar M*, Improvement in the transport critical current density and microstructure of isotopic Mg¹¹B₂ monofilament wires by optimizing the sintering temperature. Scientific Reports 6 (2016) 36660
[15] Chen N, Liu YC, Ma ZQ*, Yu LM, Li HJ, Improvement in structure and superconductivity of bulk FeSe_0.5Te_0.5 superconductors by optimizing sintering temperature. Scripta Mater. 112 (2016) 152-155
[16] Chen N，Liu YC，Ma ZQ*, Li HJ, Significant enhancement of superconducting properties in the FeSe0.5Te0.5 bulks by minor Sn addition. Mater. Lett. 175 (2016) 16-19
[17] Cheng F, Liu YC, Ma ZQ*, Shahriar Al Hossain M, Somer M, Sintering process and critical current density of low activation Mg¹¹B₂ superconductors from low temperature to high temperature. Physica C 527 (2016) 9-13
[18] Peng JM, Liu YC, Ma ZQ*, Shahriar Al Hossain M, Xin Y, Jin JX, Superior critical current density obtained in MgB₂ bulks via employing carbon-coated boron and minor Cu addition. Physica C 528 (2016) 60-64.
[19] Cai Q, Liu YC, Guo QY, Ma ZQ, Li HJ, Second-phase segregation and micro strain/lattice parameter dependent transition temperature in polycrystalline MgB₂ Supercond. Sci. Technol. 29 (2016) 105013
[20] Cai Q, Liu YC, Guo QY, Ma ZQ, Li HJ, Variation of MgB2 growth mode and enhancement of critical current density by instantaneously 800 degrees C-triggered low-temperature sintering. Scripta Mater. 124 (2016) 184-188
[21] Cai Q, Ma ZQ, Liu YC, Guo QY, Xiong J, Li HJ, Qin FM, Evaluation of quenching-induced lattice strain and superconducting properties in un-doped and glycine-doped MgB₂ bulks. J Mater Sci: Mater in Electro.27 (2016) 9431-9436
[22] Cai Q, Guo QY, Liu YC, Ma ZQ, Li HJ, Thermodynamic and kinetic evidence for MgO formation and pinning behavior in glycine-doped MgB₂ bulks. J. Mater. Sci. 51 (2016) 2665-2676
[23] Mei, YP, Liu CX, Liu, YC, Zhou XS, Yu LM, Li C, Ma ZQ, Huang Y, Effects of cold rolling on the precipitation and the morphology of delta-phase in Inconel 718 alloy, J. Mater. Res. 31 (2016) 443-454.
[24] Barua S, Shahriar AlHossain M, Ma ZQ*, D. Patel, M. Mustapic, M. Somer, "Superior critical current density obtained in MgB2 bulks through low-cost carbon-encapsulated boron powder," Scripta Mater. 104 (2015) 37-40.
[25] Chen N, Liu YC, Ma ZQ*, Li HJ, M. Shahriar Al Hossain, Enhancement of superconductivity in the sintered FeSe0.5Te0.5 bulks with proper amount of Sn addition. J. Alloys Compd. 633 (2015) 233-236
[26] Liu YC, Lan F, Ma ZQ*, Chen N, Li HJ, Barua S, Patel D, Shahriar AlHossain M, Acar S, Kim JH, Dou SX, Significantly enhanced critical current density in nano MgB2 grains formed at low temperature with homogeneous carbon doping. Supercond. Sci. Technol. 28 (2015) 055005
[27] Cheng F, Liu YC, Ma ZQ*, Li HJ, M. Shahriar Al Hossain, Superior critical current density obtained in Mg¹¹B₂ low activation superconductor by using reactive amorphous ¹¹B and optimizing sintering temperature. J. Alloys Compd. 650 (2015) 508-513
[28] Wang H, Gao ZM, Liu YC, Li C, Ma ZQ, Yu LM, Evaluation of cooling rate on electrochemical behavior of Sn-0.3Ag-0.9Zn solder alloy in 3.5 wt% NaCl solution. J Mater Sci: Mater in Electro.26 (2015)11-22
[29] Lan F, Ma ZQ*, Liu YC, Chen N, Cai Q, Li HJ, Barua S, Patel D, Shahriar AlHossain M, Kim JH, Dou SX, The formation of nano-layered grains and their enhanced superconducting transition temperature in Mg-doped FeSe_0.9 bulks. Scientific Reports 4 (2014) 6481
[30] Chen N，Ma ZQ*, Liu YC, Li XT, Cai Q, Li HJ, Yu LM, Influence of Sn doping on the phase formation and superconductivity of FeSe0.93. J. Alloys Compd.588 (2014) 418-421
[31] Ma ZQ, Liu YC , Cai Q, Yu LM, Significant improvement in the critical current density of MgB₂ bulks in situ sintered at low temperature by excess Mg addition Physica C 496 (2014) 49–52
[32] Ma ZQ, Dong ML, Liu YC, The sintering process and reaction kinetics of Fe-Se system after ball milling treatment. J. Supercond. Nov. Magn. 27 (2014) 775–780.
[33] Xiong J, Cai Q, Ma ZQ*, Yu LM, Liu YC*, Enhancement of Critical Current Density in MgB₂Bulk with CNT-coated Al Addition. J. Supercond. Nov. Magn. 27 (2014) 1659-1664.
[34] Cai Q, Liu YC, Ma ZQ, Yu LM, Xiong J, Li HJ. Pinning behavior of glycine-doped MgB₂ bulks with excellent critical current density by Cu-activated low-temperature sintering. J. Alloys Compd. 585 (2014) 78-84.
[35] Cai Q, Liu YC, Ma ZQ, Yu LM. Effects of MgO evolution on the critical current density in bulk MgB₂ containing histidine. Physica C 496 (2014) 53-57.
[36] Cai Q, Liu YC, Ma ZQ, Yu LM. Comparison of carbon-doped MgB₂ bulks fabricated from pre-synthesized Mg/CNT and Mg/amorphous carbon composites. Appl Phys A-Mater Sci Process. 114 (2014) 919-924.
[37] Ma ZQ, Liu YC, Cai Q, Jiang H, Yu LM, Excellent Jc in the low-temperature sintered MgB₂ superconductors consisted of uncompleted MgB₂ phase and residual Mg. Mater. Chem. Phys. 141 (2013) 378-382.
[38] Jiang H, Ma ZQ*, Liu YC，Dong ZZ, Yu LM, Cai Q, Wang R, The effect of ball-milling treatment of original powders on the sintering process and critical current density of graphite-doped MgB₂ bulks., J. Mater. Sci. 48 (2013) 2485-2489.
[39] Cai Q, Liu YC, Ma ZQ, Li HJ, Yu LM, Variation of pinning mechanism and enhancement of critical current density in MgB₂ bulk containing self-generated coherent MgB₄ impurity. Appl.Phys.Lett 103 (2013) 132601.
[40] Dai L, Liu YC, Ma ZQ, Dong ZZ, Yu LM, Microstructural evolution of oxide-dispersion-strengthened Fe-Cr model steels during mechanical milling and subsequent hot pressing. J. Mater. Sci. 48 (2013) 1826-1836.
[41] Li XT, Gao ZM, Liu YC, Ma ZQ, Yu LM, Li HJ, Yang HZ, The microstructures and superconducting properties of FeSe_0.5Te_0.5bulks with original milled powders. Cryogenics, 57 (2013) 50-54.
[42] Li XT, Liu YC, Ma ZQ, Gao ZM, Characterization of low-temperature synthesized FeCr_0.05Se superconductors, Cryogenics,55 (2013) 68-72.
[43] Cai Q, Liu YC, Ma ZQ, Yu LM, Superconducting properties and growth mechanism of novel layered structure in MgB₂ bulks with Cu/Y₂O₃ co-doping, J Mater Sci: Mater in Electro., 24 (2013) 1451-1457 .
[44] Cai Q, Liu YC, Ma ZQ, Cardwell DA. Fishtail effects and improved critical current density in polycrystalline bulk MgB2 containing carbon nanotubes. Physica C. 492 (2013) 6-10.
[45] Li XT, Ma ZQ, Liu YC, Dong ML, Yu LM, The sintering process and superconductivity of polycrystalline milled Fe-Se, IEEE Trans. Appl. Supercon., 23 (2013) **.
[46] Ma ZQ, Liu YC, Cai Q, The synthesis of lamellar nano MgB₂ grains with nanoimpurities flux pinning centers and their significantly improved critical current density, Nanoscale 4 (2012) 2060-2065.
[47] Ma ZQ, Liu YC, Cai Q, Yu LM, Investigation of phase composition and nanoscale microstructure of high-energy ball-milled MgCu sample, Nanoscale. Res. Lett. 7 (2012) 390.
[48] Jiang H, Dong ZZ, Liu YC，Ma.ZQ*, Yu LM, Cai Q, Phase formation and superconductive properties of Cu doped MgB₂ sintered with milled B powder, Physica C 480 (2012) 67–70.
[49] Ma ZQ, Liu YC, Cai Q, The effect of Cu addition on the phase formation and critical current density in the sugar doped MgB₂ superconductor, J. Supercond. Nov. Magn. 25 (2012) 1683–1688.
[50]Cai Q, Liu YC, Ma ZQ, Yu LM, Significant enhancement of critical current density in Gly-doped MgB₂ bulk by tailoring the formation of MgO, Scripta Mater. 67 (2012) 92-95.
[51]Cai Q, Ma ZQ, Liu YC, Yu LM, Enhancement of critical current density in glycine-doped MgB₂ bulks, Materials Chemistry and Physics, 136 (2012) 778-782
[52]Cai Q, Ma ZQ, Liu YC, Zhao Q, Gao ZM, Effects of ball milling on the sintering process and superconducting properties of (MgB₂)_0.96Ni_0.04 Bulks, IEEE Trans. Appl. Supercon.22 (2012) **.
[53] Li XT, Gao ZM, Liu YC, Ma ZQ, Yu LM, Influence of Pre-milling Time on The Sintering Process and Superconductive Properties of FeSe, IEEE Trans. Appl. Supercon. 22 (2012) 730015.
[54] Cai Q, Liu YC, Ma ZQ, Dong ZZ,Superconducting properties of Y₂O₃/SiC Co-doped bulk MgB₂, J. Supercond. Nov. Magn. 25 (2012) 357-361.
[55] Ma ZQ, Liu YC, Low temperature synthesis of MgB₂supercondutors, Inter. Mater. Rev.56 (2011) 267-286.
[56] Ma ZQ,Liu YC, The varied kinetics mechanisms in the synthesis of MgB₂ from elemental powders by low-temperature sintering, Mater. Chem. Phys. 126 (2011) 114–117.
[57] Zhao Q, Liu YC, Zhao NQ, Penner S, Ma ZQ, A novel approach for efficient Ni nanoparticle doping of MgB₂ by liquid-assisted sintering, IEEE Trans. Nanotechnol. 10 (2011) 331-337.
[58] Cai Q, Ma ZQ, Zhao Q, Liu YC, Observation of Flux Jump in Bulk (MgB₂)_0.96Ni_0.04 Doped with Milled Ni powders, J. Supercond. Nov. Magn. 24 (2011) 2013-2017.
[59] Ma ZQ, Liu YC, Gao ZM, The synthesis and grain connectivity of lamellar MgB₂ grains by Cu-activated sintering at low temperature, Scripta Mater.63 (2010) 399-402.
[60] Ma ZQ, Jiang H, Liu YC, The accelerated low-temperature sintering of MgB₂ bulks with high critical density by minor Sn-doping, Supercond. Sci. Technol. 23 (2010) 025005.
[61] Ma ZQ, Liu YC, Hu WP, Gao ZM, Yu LM, Dong ZZ, The enhancement of J_c in the nanoSiC-doped MgB₂ superconductors rapidly synthesized by activated sintering at low-temperature, Scripta Mater. 61 (2009) 836-839.
[62] Ma ZQ, Liu YC, Huo J,Gao ZM, MgB₂ superconductors with abnormally- improved J_c sintered after autoxidation of milled original powders, J. Appl. Phys.106 (2009) 113911.
[63] Ma ZQ, Liu YC, Zhao Q, Dong ZZ, Yu LM, Mechanism analysis for enhanced electromagnetic properties in nano-SiC-doped MgB₂ based on the discussion of the sintering process, Supercond. Sci. Technol. 22 (2009) 085015.
[64] Ma ZQ, Liu YC, Huo J, Influence of ball-milled amorphous B powders on the sintering process and superconductive properties of MgB₂, Supercond. Sci. Technol. 22 (2009) 125006.
[65] Ma ZQ, Liu YC, Dong ZZ, Yu LM, Gao ZM, Zhao Q, The effect of Cu addition on the sintering process and superconductive properties of SiC-doped MgB₂ bulks, Appl. Phys. A96 (2009) 975-978.
[66] Ma ZQ, Liu YC, Shi QZ, Zhao Q, Gao ZM, The mechanism of accelerated phase formation of MgB₂ by Cu-doping during low-temperature sintering, Mater. Res. Bull. 44 (2009) 531-537.
[67] Ma ZQ, Liu YC, Shi QZ, Zhao Q, Gao ZM, Effect of Cu addition in reduction of MgO content for the synthesis of MgB₂ through sintering, J. Alloys Compd. 471 (2009) 105-108.
[68] Zhao Q, Liu YC, Han YJ, Ma ZQ, Shi QZ, Gao ZM, Effect of heating rates on microstructure and superconducting properties of pure MgB₂, Physica C 469 (2009) 857-861.
[69] Zhao Q, Liu YC, Shi QZ, Ma ZQ, Gao ZM. Characteristic and synthesis mechanism of MgB₂ nanoparticles in solid-state reactive sintering, J Alloy Compd 470 (2009) 443-447.
[70] Ma ZQ, Liu YC, Han YJ, Zhao Q, Gao ZM, Variation of the enhancement mechanism in the critical current density of Cu-doped MgB₂ samples sintered at different temperatures, J. Appl. Phys.104 (2008) 063917.
[71] Ma ZQ, Liu YC, Shi QZ, Zhao Q, Gao ZM, The accelerated formation of MgB₂ bulks with high critical current density by low-temperature Cu-doping sintering, Supercond. Sci. Technol. 21 (2008) 065004.
[72] Ma ZQ, Liu YC, Yu LM, Zhao Q, The accelerated formation of MgB₂ phase with high critical current density by Cu and SiC multi-doping during the low-temperature sintering process, J. Appl. Phys. 104 (2008) 113917.
[73] Ma ZQ, Liu YC, Shi QZ, Zhao Q, Gao ZM, The improved superconductive properties of MgB₂ bulks with minor Cu addition through reducing the MgO impurity, Physica C 468 (2008) 2250–2253.
[74] Shi QZ, Liu YC, Gao ZM, Zhao Q, Ma ZQ. In-situ formation process and mechanism of bulk MgB₂ before Mg melting, J. Mater. Res. 23 (2008) 1840- 1848.
[75] Shi QZ, Liu YC, Zhao Q, Ma ZQ. Phase formation process of bulk MgB₂ analyzed by Differential Thermal Analysis during sintering, J. Alloys Compd. 458 (2008) 553-557.
[76] Zhao Q, Liu YC, Shi QZ, Ma ZQ, Gao ZM. Characteristic and Synthesis Mechanism of MgB₂ Nanoparticles in Solid-State Reactive Sintering, J. Alloys Compd. 470 (2008) 443-447
[77] Liu YC, Shi QZ, Zhao Q, Ma ZQ, Kinetics analysis for the sintering of bulk MgB₂ superconductor, J Mater Sci: Mater in Electro. 18 (2007) 855-861.
授权发明专利
[1] 马宗青，董智，柳楠，刘永长，刘晨曦，余黎明，超细氧化钇掺杂钨复合前驱体粉末的制备方法。授权号：ZL9.0
[2] 马宗青，彭俊明，程芳，刘永长，蔡奇，Cu包覆Mg棒中心扩散法低温制备二硼化镁超导线材的方法（ZL2.0）
[3] 马宗青，陈宁，刘永长，蔡奇，Sn添加FeSe_1/2Te_1/2的超导体提高超导性能的方法（授权号：ZL7.8）
[4] 马宗青，刘永长，陈宁，蔡奇，一种添加Mg提高FeSe超导转变温度的方法（授权号：ZL3.2）
[5] 刘永长，马宗青，霍洁，高志明，余黎明，通过球磨粉末氧化控制并烧结高载流MgB₂超导体的方法 (授权号：ZL4.6)
[6] 高志明，孙芳芳，马宗青，高强度铝合金二次拉伸成型中表面橘皮效应的控制方法（授权号：ZL8.4）
[7] 刘永长，张旦天，马宗青，余黎明，高志明，15NiCuMoNb5钢正火过程中温岛状组织的消除方法（授权号：ZL1.8）
[8] 刘永长，张旦天，马宗青，余黎明，高志明，WB36钢管矫直过程马氏体/奥氏体组织控制方法（授权号：ZL0.8）
[9] 刘永长，余黎明，李冲，马宗青，王东坡，一种防止核电用20控Cr钢石墨组织出现的强磁场精炼方法（授权号：ZL3.8）
[10] 刘永长，蔡奇，马宗青，余黎明，高志明，高临界电流密度甘氨酸掺杂MgB₂超导体及制备方法(授权号：ZL2.7)
[11] 刘永长，董茂林，李小婷，马宗青，余黎明，提高FeSe超导材料烧结效率的方法（授权号：ZL3.5）
[12] 刘永长，姜海，马宗青，董治中，余黎明，金属Sn掺杂MgB₂超导体及高温快速制备方法（授权号：ZL9.9）
[13] 刘永长，徐荣雷，韦晨，马宗青，赵倩，王文忠，二硼化镁颗粒增强型锡银锌复合焊料及其制备方法（授权号：ZL8.2）
[14] 刘永长，韦晨，余黎明，徐荣雷，马宗青，赵倩，锡银锌系无铅焊料的制备方法（授权号：ZL1.X）
[15] 刘永长，史庆志，马宗青，纳米MgO晶须的低温制备方法（授权号：ZL 0.0)
[16] 刘永长，赵倩，史庆志，马宗青，超导MgB₂纳米颗粒的低温快速粉末烧结方法（授权号：ZL7.X）
[17] 刘永长，赵倩，赵乃勤，康建立，马宗青，史庆志，原位制备碳包覆镍颗粒掺杂MgB₂超导材料的方法（ZL5.5）
[18] 刘永长，史庆志，马宗青，赵倩，深过冷快速凝固法制备MgB₂超导材料（授权号：ZL 3.2）