• 1998-02-01-2004-05-01
  美国依阿华州立大学
  Materials Science and Engineering
• 1992-09-01-1995-03-16
  哈尔滨工业大学
  金属材料与热处理
• 1988-09-01-1992-07-10
  佳木斯工学院
  金属材料与热处理
• 1985-09-01-1988-07-01
  哈尔滨市第三中学

• 2004-09 — 2008-01
  美国能源部Ames实验室
• 2009-04 — Now
  山东大学
• 2008-01 — 2009-02
  美国弗吉尼亚大学
• 1995-04 — 1998-01
  哈尔滨工程大学

1. 材料科学类其他专业

(1)姜江一鸣. Microstructure Evolution and Electrical Behaviors for HighPerformance Cu2O/Zr-Doped β？Ga2O3 Heterojunction Diode .ACS Applied Materials & Interfaces .2024 (16)

(2)姜江一鸣. Zr-Doping Strategy of High-Quality Cu2O/β-Ga2O3 Heterojunction for Ultrahigh-Performance Solar-Blind Ultraviolet Photodetection .ACS Applied Materials & Interfaces .2024 (16)

(3)姜江一鸣. Grain boundary passivation in cuprous oxide thin films via nitrogen annealing .Materials Science in Semiconductor Processing .2024 (171)

(4)田耘. Suppressed MoO3/FeMoO4 formation in molybdenum dialkyl-dithiocarbamate-derived tribofilms on nitrogen-incorporated Al-Mg-Ti-B coatings .Tribology International .2022 (167)

(5)蒋蕙宇. Lithium dendrite suppression by facile interfacial barium engineering for stable 5 V-class lithium metal batteries with carbonate-based electrolyte .Chemical Engineering Journal .2021 ,414

(6)李笑笑. Robust High-Temperature Supercapacitors Based on SiC Nanowires .Advanced functional materials .2020

(7)Pengcheng Hu. Reduced bandgap and enhanced p-type electrical conduction in Ag-alloyed Cu2O thin films .JOURNAL OF APPLIED PHYSICS .2020 ,128 (12)

(8)田耘. Reduced bandgap and enhanced p-type electrical conduction in Ag-alloyed Cu2O thin films .JOURNAL OF APPLIED PHYSICS .2020 (12)

(9)蒋蕙宇. Scalable and controlled synthesis of 2D nanoporous Co3O4 from bulk alloy for potassium ion batteries .Materials Technology .2020 ,35 (9-10):594

(10)李笑笑. Quasi-aligned SiC@C nanowire arrays as free-standing electrodes for high-performance micro-supercapacitors .Energy Storage Materials .2020 (27)

(11)Jinkui Feng. Mental-organic framework derived CuO hollow spheres as high performance anodes for sodium ion battery .Materials Technology .2016

(12)田耘. Comparative studies of the tribological behaviors and tribo-chemical mechanisms for AlMgB14-TiB2 coatings and B4C coatings lubricated with molybdenum dialkyl-dithiocarbamate .Tribology International .2019 ,138 :47

(13)张聪聪. Microstructure and mechanical properties of Al-Mg-Ti-B coatings prepared by high power impulse magnetron sputtering (HIPIMS) at room temperature .Surface & Coatings Technology .2017 ,322 :25

(14)田耘. Distinct surface hydration behaviors of boron-rich boride thin film coatings .Applied Surface Science .2014 ,311 :749

(15)Jinkui Feng. Mental-organic framework derived CuO hollow spheres as high performance anodes for sodium ion battery .Materials Technology .2016

(16)田耘. Mental-organic framework derived CuO hollow spheres as high performance anodes for sodium ion battery .Materials Technology:Advanced Performance Materials .2016

(17)田耘. One-step fabrication of Fe-Si-O carbon nanotube composite anode material with excellent high-rate long-term cycling stability .JOURNAL OF ALLOYS AND COMPOUNDS .2016

(18)田耘. Nitrogen-doped carbon-coated Ti–Fe–O nanocomposites with enhanced reversible capacity and rate capability for high-performance lithium-ion batteries .RSC advances .2016

(19)田耘. Influence of ultraviolet irradiation on the surface chemistry and tribological properties of water-glycol lubricated Al-Mg-Ti-B coatings .VACUUM .2015

(20)田耘. Tribological characteristics and tribo-chemical mechanisms of Al–Mg–Ti–B coatings under water–glycol lubrication .wear .2015 ,326-327 :68

(21)田耘. Site preference of refractory elements in Ni3Al alloyed with Ru .Philosophical Magazine Letters .2012

(22)田耘. Calculation of alloying effect of Ruthenium in Ni-based single-crystal superalloys .Computational Materials Science .2012

(23)田耘. Vibrational Spectroscopic Study of Phase Segregation in Off-Stoichiometric LiFePO4-Based Cathode Materials .ECS Electrochemistry Letters .2012 ,1 (1):A4

(24)Jinkui Feng. Mental-organic framework derived CuO hollow spheres as high performance anodes for sodium ion battery .Materials Technology .2016

(25)田耘. Comparative studies of the tribological behaviors and tribo-chemical mechanisms for AlMgB14-TiB2 coatings and B4C coatings lubricated with molybdenum dialkyl-dithiocarbamate .Tribology International .2019 ,138 :47

(26)张聪聪. Microstructure and mechanical properties of Al-Mg-Ti-B coatings prepared by high power impulse magnetron sputtering (HIPIMS) at room temperature .Surface & Coatings Technology .2017 , 322 :25

(27)Jinkui Feng. Mental-organic framework derived CuO hollow spheres as high performance anodes for sodium ion battery .Materials Technology .2016

(28)田耘. Nitrogen-doped carbon-coated Ti–Fe–O nanocomposites with enhanced reversible capacity and rate capability for high-performance lithium-ion batteries .RSC advances .2016

(29)田耘. One-step fabrication of Fe-Si-O carbon nanotube composite anode material with excellent high-rate long-term cycling stability .JOURNAL OF ALLOYS AND COMPOUNDS .2016

(30)田耘. Influence of ultraviolet irradiation on the surface chemistry and tribological properties of water-glycol lubricated Al-Mg-Ti-B coatings .Vacuum .2015

(31)田耘. Tribological characteristics and tribo-chemical mechanisms of Al–Mg–Ti–B coatings under water–glycol lubrication .wear .2015 ,326-327 :68

(32)田耘. Distinct surface hydration behaviors of boron-rich boride thin film coatings .Applied surface science .2014 ,311 :749

(33)田耘. Site preference of refractory elements in Ni3Al alloyed with Ru .Philosophical Magazine Letters .2012

(34)田耘. Calculation of alloying effect of Ruthenium in Ni-based single-crystal superalloys .Computational Materials Science .2012

(35)田耘. Vibrational Spectroscopic Study of Phase Segregation in Off-Stoichiometric LiFePO4-Based Cathode Materials .ECS Electrochemistry Letters .2012 ,1 (1):A4

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3. AlMgB14-TiB2涂层与钛合金切屑界面结构演变及涂层钛合金加工使役行为的研究, 2020-09-18-2024-12-31

4. 中高温耐候性平板太阳能光热吸收涂层的研究, 2013-01-01-2015-12-31

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8. 油润滑铝镁钛硼纳米复合涂层摩擦学行为及磨损机理的研究, 2015-08-17-2019-12-31

9. AlMgB14-TiB2纳米复合涂层醇-水润滑机理的研究, 2012-08-17-2016-12-31

10. 基于AlMgB14的新型抗磨损涂层材料研究, 2012-01-01-2013-12-31

11. 抗磨涂层研究, 2010-01-15-2010-12-31