老张是课题组的兼职水工、钳工、焊工、电工。。。各种装修、安装、仪器维保的活儿也都能干几下。

1、先进盐水淡化技术与装备研发（省部级重大）

2、稀土基高性能复合固态电解质研发与产业化（南开大学材料学院、稀土与无机材料材料研究中心杜亚平教授合作项目）

3、含稀土高性能锌离子电池技术（北方稀土新材料技术创新中心开放项目）

4、高性能树脂及衍生物制备技术（先进电子材料方向合作项目）

5、高性能3D打印及陶瓷制备技术（西安交大材料学院鲁中良教授课题组合作项目）

6、分子设计与流动化学等先进制备技术（西安交大前沿院李鹏飞教授课题组合作项目）

专著章节

[1] New Design ofPhenol-Containing Polymers as Radical Scavengers.  Book chapter2 in Free Radicals and Health. Editedby Marianne Rutherford. Nova Science Publisher, New York 2016. ISBN: 978-1-53610-181-2 

[2] New Design of Thiol-Responsive Degradable BlockCopolymer Micelles as Controlled Drug Delivery Vehicles.  ACS Symposium Series, Vol. 1101, Entitled"Progress in Controlled Radical Polymerization: Materials and Applications."Edited by K. Matyjaszewski, B. S. Sumerlin, and N. V. Tsarevsky ISBN13:9780841227576.  Mar 20, 2012, WashingtonDC. Chapter 19, 289-302.

来校以后发表论文（部分）

[1]    Optimized Integration ofIntercalation and Conversion Behaviors for Cu2O/MnO2 Hybrid Cathodes of ZincIon Batteries. Journal of Energy Chemistry, 2025, 107, 212-220. (SCI材料科学一区，TOP期刊，IF=14.9)

[2]    ExploringTetra-/Penta-/HexavalentIon Substitution in Yttrium-Based Halide Solid-State Electrolytes. NanoLetters. 2025, 25, 1792−1799.  （SCI材料科学一区，TOP期刊，IF=9.6）

[3]    功能型有机硅改性环氧树脂的研究新进展. 中国塑料，2025,39(01):126-131.

[4]    Highly Efficient Mn2+Deposition Induced by H-vacancies of Materials NiMn-LDH Nanosheets forDurableZinc Ion Batteries. Energy Storage Materials. 2025, 74, 103887.（SCI材料科学一区，TOP期刊，IF=20.2）     

[5]    Multi-layeredcarbonaccommodation of MnO2 Enabling Fast Kinetics for Highly Stable ZincIonBatteries. Journal of Colloid & Interface Science. 2024, 676:927-936.（SCI化学一区，TOP期刊，IF=9.37）

[6]    Foreign object damage behaviorand failure mechanism of Al2O3-modified TBCs prepared byPS-PVD. Transactions of Nonferrous Metals Society of China 2024, 34, 237-251 (中国有色金属学报-英文版) （SCI材料科学一区）

[7]    Construction andutilization ofrare earth complexes as efficient corrosion inhibitor in epoxycoating, Progressin Organic Coatings, 2024, 186, 108024. （SCI材料二区， IF=6.5）

[8]    单离子导体聚合物电解质的研究进展. 高分子材料科学与工程,2024,40(6),171-181.

[9]    High voltage andcycling stablenorbornene-based polycarbonate electrolyte for lithium metal battery, ACSMaterials letters. 2024, 6, 3675−3682 (SCI化学一区, IF：11.4)

[10]  Silane-modifiedHMMM gel polymerelectrolyte with wide electrochemical window and high flameretardance forlithium metal battery, Journal of Electroanalytical Chemistry,2024, 967,118465. (SCI三区, IF：4.1)

[11]  聚硅氧烷固态电解质的研究现状及未来发展趋势. 化工新型材料2024:1-9.

[12]  环氧树脂基导热复合材料的研究现状及展望. 化工新型材料,2024,52(S1):19-24+31.

[13]  Recent Advances in PreceramicPolysilazane Precursors in Additive Manufacturing. AdditiveManufacturingFrontiers, 2024, 3(1), 200119. （亮点文章）

[14]  Rare Earth Oxide BasedElectrocatalysts: Synthesis,Properties and Applications. Chemical SocietyReviews. 2024, 53:714-763. (SCI化学一区, IF：40.4)

[15]  Penta-CoordinatedY SitesModulated Single Bi Sites for Promoted Selectivity of ElectrochemicalCO2Reduction. Advanced Functional Materials. 2024, 34:2311087. (SCI化学一区,IF：19.9)

[16]  自由基聚合反应引发剂的研究进展.塑料助剂,2022,(4): 29-34.

[17]  玻璃纤维表面涂层研究进展.玻璃纤维,2022,(01): 34-44.

[18]  活性氧捕获材料研究进展.化学学报.2022, 80,570-580.（SCI三区, IF 2.789)

[19]  稀土溴化物固态电解质材料在全固态电池中的应用研究进展. 应用化学, 2022,39(4), 585-595. （北大核心, CSCD,IF 1.023）

[20]  Research Progress on SpaceCharge Layer Effect in Lithium-ion Solid State Battery.ScienceChina-Technological Sciences, 2022, 65(10): 2246-2258. （SCI二区, IF 3.572,）

[21]  Advances of Solid Lithium IonElectrolyte Based on the Composites of Polymer andLLTO/LLZO of Rare EarthOxides. Engineering Reports. 2022, 4, e12448-73

[22]  Cerium-doped bimetal organicframework as a superhigh capacity cathode for rechargeable alkaline batteries.Nanoscale. 2021, 13, 3581-3587.（SCI材料二区 IF 5.1）

[23]  Recentadvances on rare earthsin solid lithium ion conductors. Journal of Rare Earths. 2021, 39, 1-10.（亮点文章）(SCI 化学一区)

[24]  Adsorptionof Deoxynivalenol byPillared Montmorillonite. Food Chemistry. 2021,343, 128391-128396. (SCI 应用化学、食品科技 一区)

[25]  Studyof solid polyureth aneelectrolytes synthesized from HDI and PEO of differentmolecular weight. Journalof Electroanalytical Chemistry 2021, 893, 115305.

[26]  Fabricationof CQDs/Bi5Nb3O15Nanocomposites for Photocatalytic Degradation of VeterinaryPharmaceuticalSarafloxacin. Catalysis Today 2020, 355, 716.

[27]  Studyof a Composite SolidElectrolyte Made From a New Pyrrolidone-Containing Polymerand LLZTO. Journal ofColloid & Interface Science. 2020,580, 389-398.

[28]  Imidazole-containing solidpolymer electrolyte for lithium ion conduction and the effectsof two lithiumsalts. Electrochimica Acta. 2020,351, 136342-53.

[29]  Nitrogen-sulphur Co-dopedgraphenes modified electrospun lignin/polyacrylonitrile-based carbonnanofiberas high performance supercapacitor. Journal of Power Sources.2019, 437,226937-226947.

[30]  Boostingthe electrochemicalperformance of nitrogen-oxygen co-doped carbon nanofibers-based supercapacitorsthrough esterification of lignin precursor. Renewable Energy, 2020, 162,613-623.

[31]  Photo-controlled release ofmetal ions using triazoline-containing amphiphilic copolymers. Polymer Chemistry,2019, 10, 3585–3596. (SCI化学一区，封底文章)

[32] Epoxycontainingsolid polymer electrolyte for lithium ion battery.  Electrochimica Acta. 2019, 318, 302-313.

[33] InterplanarSpace-ControllableCarboxylate Pillared Metal Organic Framework Ultrathin Nanosheet for SuperhighCapacity Rechargeable Alkaline Battery. Nano Energy2019, 62, 876-882.（西安市自然科学优秀学术论文奖）

[34] Anewdesign of cleavable acetal-containing amphiphilic block copolymerstriggered bylight.  Journal of Polymer Science PartA: Polymer Chemistry.  2018,56,1815–1824.

[35] Theantioxidantcompound isolated from the fruits of Chinese wild raspberry RubuschingiiHu.  Natural Product Research,2018, 32,1-4

[36] Synthesis,characterization and evaluation cytotoxic activity of silver nanoparticlessynthesized by Chinese herbal Cornus officinalis via environment friendlyapproach. Environmental Toxicology and Pharmacology, 2017, 56, 56-60.

[37] Greensynthesis of silver nanoparticles using seed extract of Alpiniakatsumadai andtheir antioxidant, cytotoxicity and antibacterial activities. RSC Advances,2017, 7:39842-39851.

[38] 改性蒙脱土对霉菌毒素的吸附研究进展. 化工进展. 2017 ，36（2），618-625

[39] Soft-nanocouplingbetween silica and gold nanoparticles based on Block Copolymer.  Reactive and Functional Polymers. 2017, 110,30-37.

[40] Polyadditionof Azide-Containing Norbornene-Based Monomer through Strain-Promoted1,3-Dipolar Cycloaddition Reaction. Macromolecular Rapid Communications. 2016,37(16),1311-1317。(SCI 化学一区，封面文章)

[41] PhosphonatedHomopolymers and Copolymers via Ring Opening Metathesis Polymerization:TgTuning, Flame-resistance and Photolithography. Journal of Polymer SciencePart A:Polymer Chemistry.  2016,54,1396–1408.

[42] FreeRadical Nano Scavenger Based on Amphiphilic Novolacs. RSC Advances. 2015, 5,95666-95673.

[43] PreparationandApplication of Fe(III) Doped Titania Photocatalyst with Hollow Structure.Integrated Ferroelectrics. 2015, 167(1),123-136.

[44] HydrothermalSynthesis of Y3NbO7 Nanowires for the Photocatalytic Degradation ofOmeprazole  Sodium. CeramicsInternational 2015,41(6),7669-7676.

[45] PreparationandPhotocatalytic Property of Er3NbO7/LSC-100 Chelating Resin Composites.Integrated Ferroelectrics 2015,159(1),73-86.

[46] 纳米粒子微萃取-原子吸收光谱法测定水中镉和钙. 分析试验室2015,34(5), 570-573.

[47] Electrospinningof Ionic Supramolecular Azo Complexes.  Macromolecular Symposia.  2014,336(1), 30-38.

[48] P-doped TiO2 with Superior Visible Light Activity Prepared by Rapid Microwave Hydrothermal Method. Applied Surface Science 2014,(319), 99-106.

来校以后申请专利（部分）

[1]    一种层状钴锰双金属氢氧化物及其制备方法和应用。中国发明专利ZL202510728242.0

[2]    一种铜锰双金属氧化物正极材料及其制备方法和应用。中国发明专利：ZL202411420434.7。

[3]    新型含氟复合锂离子固态电解质及其制备方法。中国发明专利：ZL202210046763.4。

[4]    一种超分子电解质及其制备方法。中国发明专利：ZL202111028305.X。

[5]    一种双三嗪环氧树脂固化剂及其合成方法。中国发明专利：ZL201810718325.1。

[6]    含有烷基三氟硼酸盐的引发体系及其引发单体聚合的方法。中国发明专利：ZL201711384737.8。

[7]    一种自由基纳米捕获材料及其制备方法。中国发明专利： ZL201510342035.8