专利与软件著作权

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专利名称 申请号 专利类型 申请日期
六氟化硫分解产物检测气室、动态循环检测系统及方法 CN202311318490.5 发明 2023.10.12
一种用于硬掩壁和硅片的对准夹紧装置及方法 CN202310737473.9 发明 2023.06.21
基于复合固定相材料的色谱柱及其制备方法 CN202310623772.X 发明 2023.05.30
循环油恒温真空油气分离的互补传感阵列检测装置及方法 CN202310596085.3 发明 2023.05.24
六氟化硫分解产物互补传感阵列检测装置及方法 CN202310590309.X 发明 2023.05.24
一种低检测限MEMS乙炔气体传感器及制备方法 CN202310249660.2 发明 2023.03.15
基于悬膜结构MEMS桥式钯合金氢气传感芯片及制备方法 CN202310249668.9 发明 2023.03.15
掺锡氧化镍贵金属修饰的MEMS甲醛传感器及制备方法 CN202210480855.3 发明 2022.05.05
一种多孔金属氧化物晶圆级微纳气体传感器及制备方法 CN202210335484.X 发明 2022.03.31
人体呼吸标志VOCs气体的分离检测方法、系统及应用 CN202210138061.9 发明 2022.02.15
一种用于微纳气体传感器封装的盖板 CN202121465985.7 发明 2021.06.29
一种可用空气作载气的微型气相色谱柱及其制作方法 CN202110655172.2 发明 2021.06.11
一种兼容MEMS工艺的背部悬膜气体传感器制备方法 CN202110082943.3 发明 2021.01.21
贵金属量子点修饰多层纳米复合薄膜气体传感器制备方法 CN202011565905.5 发明 2020.12.05
晶圆级敏感材料及半导体传感器的喷涂方法 CN202011215050.3 发明 2020.11.04
基于掺铝氧化锌多孔纳米薄膜的MEMS甲醛传感器的制备方法 CN202011053124.8 发明 2020.09.29
集成化便携式高精度MicroGC-μTCD检测仪 CN202021205424.9 发明 2020.06.24
集成化便携式高精度MicroGC-MOS检测仪 CN202021205443.1 发明 2020.06.24
一种用于肝病快速筛查的便携式检测设备及检测方法 CN202010496793.6 发明 2020.06.03
一种基于硅酸钙基底的气体传感器芯片结构及制备方法 CN202010414092.3 发明 2020.05.15

国内外文章

更多文献内容详见

https://www.researchgate.net/profile/Hairong-Wang-10

 

2024年发表论文

1.Ze Zhang, Cheng Zhang, Chen Jia, Tengfei Li, Peng Li, Bing Tian, Zongxin Hu, Hairong Wang, Jiuhong Wang. Noble metal (Pd, Pt) doped ZnO: A promising complementary array for DGA in transformer oil based on DFT method[J]. Materials Today Communications, 2024, 38: 107908.

2.Minghui Zhao, Yonghong Qi, Hailong Wang, Zongxiang Xie, Bo Li, Hairong Wang, and Xueyong We. Optical Interferometric MEMS Accelerometers[J]. Laser & Photonics Reviews, 2023: 2300713.

 

2023年发表论文     

       1.Cao H, Hu Z, Wei X, Wang H, et al. Conductometric ethanol gas sensor based on a bilayer film consisting of SnO2 film and SnO2/ZnSnO3 porous film prepared by magnetron sputtering[J]. Sensors and Actuators B: Chemical, 2023, 382: 133562.

2.Wu X, Wang D, Zhang K, Hua X, Wang H, et al. A micro packed preconcentrator using ionic liquid coated graphitized carbons for detection of low concentration isoprene[J]. Journal of Micromechanics and Microengineering, 2023, 33(5): 055007.

3.Zhang C, Wang J, Zhang Z, Gong J, Wang H. An Ultrasensitive Isoprene Gas Sensor Based on the In2O3/MoS2 Nanocomposite Prepared by Hydrothermal Synthesis. RSC Advances[J], 2023,13, 15826–15832.

4.Dong T, Li S, Chen Y, Xing Y, Yin M, Du H, Jia Y, Wang H, et al. Annealing edge sites of porous SnO2 nanoplates for selective NO2 sensing: a combined experimental and theoretical study[J]. Journal of Sol-Gel Science and Technology, 2023: 1-12.

5.Tang Y K, Lai P, Hu Z, et al. A hard mask process and alignment device aims to achieve high consistency and mass-scale production of gas sensors based on spraying hydrothermal gas sensing material[J]. Review of Scientific Instruments, 2023, 94(10).

6.Zhang K, Wu X, Wang D, et al. Micro gas chromatography column coated with ionic liquid/metal–organic framework composites as the stationary phase[J]. Journal of Micromechanics and Microengineering, 2023, 33(11): 115004.

7.Tian X, Hu Z, Jia C, et al. A Review of Advanced Gas Sensor Based on Sputtering SnO2 Thin Film Challenges and Opportunities[J]. Journal of Environmental Chemical Engineering, 2023: 111516.

8.Zhang Z, Zhang C, Yu N, et al. Laser-induced Fluorescence Detection of Cold-induced RNA Binding Protein Based on the Fluorescence Enhancement Effect of Photonic Crystal[C]//2023 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO). IEEE, 2023: 448-452.

9.Dong T, Li S, Chen Y, et al. Annealing edge sites of porous SnO2 nanoplates for selective NO2 sensing: a combined experimental and theoretical study[J]. Journal of Sol-Gel Science and Technology, 2023: 1-12.

 

2022年发表论文

1. Chen X, Wang H, Wei X. A wide bandwidth real-time MEMS optical power meter with high resolution and linearity[J]. Sensors and Actuators A: Physical, 2022, 339: 113506.

2. Zhao L, Zhao H, Wang H, et al. A real-time dressing method for metal lapping pads based on the thermal deformation effect[J]. The International Journal of Advanced Manufacturing Technology, 2022: 1-14.

3. Wu X, Wang H, Wang J, et al. VOCs gas sensor based on MOFs derived porous Au@Cr2O3-In2O3 nanorods for breath analysis[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2022, 632: 127752.

4. Li Z, Wang H, Zhao H, et al. Effect of regulating compressive strains on thermal transport of silicon-based amorphous silica thin films and interfacial thermal resistance[J]. Vacuum, 2022, 195: 110676.

5.Tian X, Cao H, Wang H, et al. Optimal Pt mesoporous layer modified nanocomposite film with highly sensitive detection of ethanol at low temperature[J]. Applied Surface Science, 2022, 578: 151983.

6. Li Y, Miao X, Fang Z, Zhou G, Niu L, Yang K, Wang H, etal. Damage behaviors of silica microparticles on fused silica optics under 355 nm high fluence laser[J]. International Journal of Modern Physics B, 2022: 2240068.

7.Tian X, Cao H, Wei X, Wang J, Wu X, Wang H. Controllable acid vapor oxidation growth of complex SnO2 nanostructures for ultrasensitive ethanol sensing[J]. Ceramics International, 2022, 48(7): 9229-9238.

8. Zhao L, Zhao H, Wang H, etal. Planar polishing process method based on real-time dressing of a polishing pad surface[J]. Applied Optics, 2022, 61(12):3319-3327.

9. Chen T, Sun J, Xue N, Zhang Xin, Wang H, etal. Co, N-doped GQDs/SnO2 mesoporous microspheres exhibit synergistically enhanced gas sensing properties for H2S gas detection[J]. Journal of Materials Chemistry A, 2022.

10. Qin X, Chen X, Li L, Wang H, Wei X. Microfluidic acoustic valve for capturing locomotive microorganism without anesthesia[J]. Sensors and Actuators A: Physical, 2022: 113568.

11. Wu X, Wang D, Shi L, Wang H, etal. A compact gas chromatography platform for detection of multicomponent volatile organic compounds biomarkers[J]. Review of Scientific Instruments, 2022, 93(6).

12. Shi L, Wang H, Wu X, et al. A Microfabricated Semi-Packed Column Coated with Porous Layer and Ionic Liquid for the Separation of Characteristic Markers of Non-Alcoholic Fatty Liver Disease[J], Journal of Micromechanics and Microengineering, 2022.

13. Liu L, Qin Y, Wang K, Wang K, Mao H, Wu H, Yu W, Zhang D, Zhao H, Wang H, et al. Rational Design of Nanostructured Metal/C Interface in 3D SelfSupporting Cellulose Carbon Aerogel Facilitating HighPerformance LiCO2 Batteries[J]. Advanced Energy Materials, 2022, 12(20): 2103681.

14.Tian X, Cao H, Wang H, et al. Acid vapor oxidation growth of SnO2 nanospheres with ultra-high sensitivity to ethanol detection at low temperature[J]. Journal of Alloys and Compounds, 2022, 905: 164229.

15.Tang Y, Gong J, Gou Y, Wang H, Yu L. The CeO2–TiO2 composite material for improving response speed of detecting low-concentration formaldehyde[J]. Applied Nanoscience, 2022: 1-14.

16. Gong J, Wang Z, Tang Y, Sun J, Wei X, Zhang Q, Tian G, Wang H. MEMS-based resistive hydrogen sensor with high performance using a palladium-gold alloy thin film[J]. Journal of Alloys and Compounds, 2022: 167398.

17. Tian X, Hu Z, Wang T, Wang H, et al. Influence of multi-layer TiO2/SnO2 heterojunctions on fast and sensitive ethanol detection[J]. Vacuum, 2022.

 

2021年发表论文

1. Han B, Liu T, Wang H, et al. A microcolumn coated with polydimethylsiloxane functionalized by graphene oxide quantum dots for the gas chromatographic separation of characteristic markers of advanced fibrosis[J]. Journal of Micromechanics and Microengineering, 2021, 31(3): 035011.

2. Han B, Wang H, Yang W, et al. Hierarchical Pt-decorated In2O3 microspheres with highly enhanced isoprene sensing properties[J]. Ceramics International, 2021, 47(7): 9477-9485.

3. J.L. Chen, B.Q. Han, T.H. Liu, H.R. Wang and J.H. Wang. Separation characteristics of an integrated temperature-controlled micro gas chromatography chip[J]. Journal of Instrumentation, 2021, 16(03): P03024.

4. Zhang M, Tang Y, Tian X, Wang H, Wang J, Zhang Q. Magnetron co-sputtering optimized aluminum-doped zinc oxide (AZO) film for high-response formaldehyde sensing[J]. Journal of Alloys and Compounds, 2021, 880: 160510.

5.李雨菡, 肖华攀, 王海容, . 湿法刻蚀处理熔石英光学元件研究进展[J]. 激光与光电子学进展, 2021, 58(15): 1516026.

6. Wu X, Wang H, Wang J, et al. Hydrothermal synthesis of flower-like Cr2O3-doped In2O3 nanorods clusters for ultra-low isoprene detection[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021, 620: 126606.

7. Xiao H, Yin S, Wang H, et al. Models of grinding-induced surface and subsurface damages in fused silica considering strain rate and micro shape/geometry of abrasive[J]. Ceramics International, 2021, 47(17): 24924-24941.

8. Qin X, Wei X, Li L, Wang H, Jiang Z, Sun D. Acoustic valves in microfluidic channels for droplet manipulation[J]. Lab on a Chip, 2021, 21(16): 3165-3173.

9.金成,王久洪,张成,张泽,王海容.结合传感器阵列和BP神经网络的挥发性有机物定量检测系统[J].西安交通大学学报,2021,55(10):106-113.

10. Tang Y, Zhang M, Nawaz S A, Tian X, Wang H, Wang J. TiO2 hierarchical nano blooming-flower decorated by Pt for formaldehyde detection[J]. Nanotechnology, 2021, 32(36): 365601.

11. Li Y, Yao C, Miao X, Wang H, Jiang X. Damage morphologies of Al2O3 and Fe particles attached on the input surface of fused silica after irradiation by a 355 nm laser[J]. Applied Optics, 2021, 60(26): 8130-8136.

12. Zhao L, Zhao H, Wang H, et al. Multitarget optimization method for full-aperture lapping process using temperature-controlled lapping disc[J]. Optical Engineering, 2021, 60(10): 105102.

 

2020年发表论文

1. B Han, J Wang, W Yang, X Chen, H Wang, et al. Hydrothermal synthesis of flower-like In2O3 as a chemiresistive isoprene sensor for breath analysis[J]. Sensors and Actuators B: Chemical, 2020, 309: 127788.

2. Zhao M, Jiang K, Bai H, et al. A MEMS based Fabry–Pérot accelerometer with high resolution[J]. Microsystem Technologies, 2020, 26(6): 1961-1969.

3. H Gu, J Wang, X Wei, H Wang, Z Li. Thermal conductivity and interfacial thermal resistance in the heterostructure of silicon/amorphous silicon dioxide: the strain and temperature effect[J]. Nanotechnology, 2020, 31(50): 505703.

4. Li Z, Wang H, Zhao H, et al. Effects of strain on thermal conductivity of silicon dioxide thin films using test method based on 3-ω technique and uniaxial strain setup[J]. Review of Scientific Instruments, 2020, 91(8): 084901.

5. Qin X, Wang H, Wei X. Intra-droplet particle enrichment in a focused acoustic field[J]. RSC Advances, 2020, 10(20): 11565-11572.

6. Duan Y, Wei X, Wang H, et al. Design and numerical performance analysis of a microgravity accelerometer with quasi-zero stiffness[J]. Smart materials and structures, 2020, 29(7): 075018.

 

2019年发表论文

1. Li Z, Wang H, Zhao H, et al. A testing system for studying the effect of strain on thermal conductivity of thin films based on 3-ω technique[J]. Review of Scientific Instruments, 2019, 90(10): 104902.

2. Gu H, Chen K, Wang H, et al. Thermal conduction in amorphous/crystalline silicon superlattices: a molecular dynamics study of the size, temperature, and strain effect[J]. Materials Research Express, 2019, 6(11): 115041.

3. H Xiao, R Liang, O Spires, H Wang,et al. Evaluation of surface and subsurface damages for diamond turning of ZnSe crystal[J]. Optics express, 2019, 27(20): 28364-28382.

4. Z Chen, H Xiao, Z Li, N Yu, H Wang, et al. Laser modulation simulation of micro-crack morphology evolution during chemical etching[C]//Pacific Rim Laser Damage 2019: Optical Materials for High-Power Lasers. International Society for Optics and Photonics, 2019, 11063: 110631H.

5. Xiao H, Wang H, Yu N, et al. Evaluation of fixed abrasive diamond wire sawing induced subsurface damage of solar silicon wafers[J]. Journal of Materials Processing Technology, 2019, 273: 116267.

6. Chen K, Zhang M, Wang H, et al. A potentiometric SO2 gas sensor based on the Li3PO4-Li2SiO3 solid electrolyte thin film[J]. Review of Scientific Instruments, 2019, 90(6): 065001.

7. Y Li, Z Song, Y Li, S Chen, S Li, Y Li, H Wang, et al. Hierarchical hollow MoS2 microspheres as materials for conductometric NO2 gas sensors[J]. Sensors and Actuators B: Chemical, 2019, 282: 259-267.

8. J Sun, N Xue, W Wang, H Wang, et al. Compact prototype GC-PID system integrated with micro PC and micro GC column[J]. Journal of Micromechanics and Microengineering, 2019, 29(3): 035008.

9. Wang H, Chen H, Zhang M, et al. Solid-state potentiometric CO2 sensor combining Li3PO4 with MoO3-doped Li2CO3 sensing electrode[J]. Ionics, 2019, 25(7): 3397-3406.

10. B Han, G Wu, H Huang, T Liu, J Wang, J Sun, H Wang. A semi-packed micro GC column for separation of the NAFLD exhaled breath VOCs[J]. Surface and Coatings Technology, 2019, 363: 322-329.

11. Y Li, Z Song, Y Li, S Li, H Wang, et al. Synthesis of Mo4O11@ MoO3 nanobelts and their improved sensing performance to NO2 gas[J]. Materials Research Express, 2019, 6(5): 055041.

 

2018年发表论文

1.张德峰,陈晓伟,王海容,杜军,姜久龙,吴九汇.激光光梯度力消除雾霾的实验研究[J].西安交通大学学报,2018,52(10):57-63.

2. Han B, Wang H, Huang H, et al. Micro-fabricated packed metal gas preconcentrator for enhanced monitoring of ultralow concentration of isoprene[J]. Journal of Chromatography A, 2018, 1572: 27-36.

3. Wang H, Wang M, Lei W, et al. Wafer-level fabrication of low power consumption integrated alcohol microsensor[J]. Micro & Nano Letters, 2019, 14(1): 11-16.

4. Gu H, Wang H. Effect of strain on thermal conductivity of amorphous silicon dioxide thin films: A molecular dynamics study[J]. Computational Materials Science, 2018, 144: 133-138.

5. Xiao H, Chen Z, Wang H, et al. Effect of grinding parameters on surface roughness and subsurface damage and their evaluation in fused silica[J]. Optics express, 2018, 26(4): 4638-4655.

6. Zhang M, Chen H, Wang H. Improved sensing properties of CO2 gas sensor based on Li3PO4-Li2SiO3 thin film compared with Li3PO4[J]. Journal of The Electrochemical Society, 2018, 165(5): B167.

7. Xiao H, Chen Z, Wang H, et al. Effect of micro-crack and reaction product on laser damage performance of optical glass during chemical etching[C]//Pacific-Rim Laser Damage 2018: Optical Materials for High-Power Lasers. SPIE, 2018, 10713: 24-31. 

8. Wang H, Chen Z, Xiao H, et al. Combined modulation to incident laser by subsurface crack and contaminant on fused silica[C]//Pacific-Rim Laser Damage 2018: Optical Materials for High-Power Lasers. International Society for Optics and Photonics, 2018, 10713: 1071312.

 

2017年发表论文

1. Wang H, Chen D, Zhang M, et al. Influence of the sensing and reference electrodes relative size on the sensing properties of Li3PO4-based potentiometric CO2 sensors[J]. Surface and Coatings Technology, 2017, 320: 542-547.

2. Xiao H, Wang H, Fu G, et al. Surface roughness and morphology evolution of optical glass with micro-cracks during chemical etching[J]. Applied optics, 2017, 56(3): 702-711.

3. Xiao H, Wang H, Chen Z, et al. Effect of brittle scratches on transmission of optical glass and its induced light intensification during the chemical etching[J]. Optical Engineering, 2017, 56(10): 105101.

4. Wang H, Zhang M, Chen D, et al. Influence of annealing conditions on the ionic conductivity of Li3PO4-Li2SiO3 thin films prepared by magnetron sputtering[J]. Ceramics International, 2017, 43(17): 15821-15827.

5. Xiao H, Chen H, Wang H, et al. The influence of subsurface damage’s micro crack on the optical properties of the optical components[C]//Selected Papers of the Chinese Society for Optical Engineering Conferences held October and November 2016. SPIE, 2017, 10255: 244-250. 

6. Wang H, Zhang M, Liu Z, et al. Structural and Properties Study of Li3PO4 Thin Film Electrolyte for Potentiometric Nox Sensing[C]//2017 5th International Conference on Mechanical, Automotive and Materials Engineering (CMAME). IEEE, 2017: 23-27.

7. Wang H, Wang M, Chen X, et al. The micro hydrogen sensor chip with low power consumption[C]//2017 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO). IEEE, 2017: 264-268.

8. Hairong Wang, Guishan Wu, Baoqing Han, Hao Huang, Jiuhong Wang, Design, Simulation and Fabrication of Micro Gas Chromatography Column for Breath Analysis, The 13th International Symposium on Measurement Technology and Intelligent Instruments, Sept. 25-27, Xi’an China 

9. Han B, Wu G, Wang H, et al. Micro-fabricated packed metal gas preconcentrator for low detection limit exhaled VOC gas measurements[C]//2017 IEEE International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale (3M-NANO). IEEE, 2017: 269-273.

 

2016年期刊论文

1. Hairong Wang, Qiao Sun, Lei Chen, Yixue Li, Yuqing Yao, Jiaxin Wang. A micro room temperature O2 sensor using the TiO2  nanorod-based hierarchical nanostructures,Ceramics International, vol.42, 8565-8571, 2016

2. Hairong Wang, Di Chen, Zhen Liu, Mi Zhang. Au thin-film electrodes based potentiometric CO2 sensor using Li3PO4 as both the  reference material and the solid electrolyte, Micro & Nano Letters, 06/2016

3.  Hairong Wang, Yuqing Yao, Qiao Sun, GuishanWu, Mengya Wang, Jiaxin Wang, Qunming Zhang. Design and fabrication of an  integrated MEMS O2 sensor based on nanostructured TiO2, international journal of nanotechnology, 2016(in press online)

4. Y.X. Lia, Z.X. Songa,F. Jianga, Q. Sunb, F. Ma,H.R. WangK. ChenThermal annealing induced mazy structure on MoO3 thin films and their high sensing performance to NO gas at room temperatureCeramics International, http://dx.doi.org/10.1016/j.ceramint.2016.08.162,

 

2015

1.  Hairong Wang, Jiaxin Wang, Lei Chen, Yuqing Yao, Qunming Zhang. Itegrated Microoxygen Sensor Based On Nanostructured TiO2 Thin Films, Micro & Nano Letters, Vol.10, Issue 10, 597-602, 2015

2.  Zhuangde  Jiang; Bike Zhang; Hairong Wang;  Lihui Xiao; Hongfeng Chen. Fast Predicting Statistical Subsurface Damage Parameters of the K9 Sample, International Journal of Optomechatronics, Vol.9, Issue 3,248-259, 07/2015

3. Hairong Wang, Hongfeng Chen, Guanglong Fu, Huapan Xiao. Relationship Between Grinding Process And the Parameters of Subsurface Damage Based on The Image Processing. The  International Journal of Advanced Manufacturing Technology, 18 August, 2015:1-9

4. Hairong Wang, Zhen Liu, Di Chen, Zhuangde Jiang. A new potentiometric SO2 sensor based on Li3PO4 electrolyte film and its response characteristics. Review of Scientific Instrument, Vol. 86, Issue 7, 07/2015

5. Hairong Wang, Guanglong Fu, Lihui Xiao, Hongfeng Chen, Huapan Xiao , Accuracy of the subsurface damageparameters calculated by the FD algorithm, Journal of the European Optical Society,2015

 

2014

1. Hairong Wang, Lei Chen, Jiaxin Wang, Quantao Sun, Yulong Zhao, A Micro Oxygen Sensor Based on A Nano Sol-Gel TIo2 Thin Film, Journal of Sensors, Vol. 14(9), 16423-16433,2014

2. Sun Guoliang , Wang Hairong, Li Peng, et al, Response characteristics of a potentiometric CO2 gas sensor based on Li3PO4 solid electrolyte using Au film as the electrodes, Journal of Applied Physics, Vol.115, 124505,(1-5) 2014

 

2013

1. Peng, Sun Guo Liang, Wang Hairong, Jiang Zhuangde, Fabrication of Thin Film Potentiometric CO2 Sensors on Differentiate Substrate Surfaces and Their Characteristics, Micro & Nano Letters, 2013,Vol.8, Issue. 8, 445-449

2. Hairong Wang, Wei Zhang, Liudong You, Guoyin YuanZhao Yulong Zhuangde Jiang,BP Neural Network Modeling of Non-Dispersive Infrared Methane Sensor for Temperature and Humidity Compensation, Instrumentation Science & Technology, 2013,Vol.: 41, Issue: 06, 608 – 618

3. Wang Hairong, Sun Quantao, Chen Lei, et al, Sandwich structure of Pd doped nanostructure TiO2 film as O2 sensor, Review of Scientific Instruments, 2013 Vol.89, Issue 9, 083901-4

4. Wang Hairong, Guan Cheng, Zhang Bike, Jiang Zhuangde, 3D topography evolution of micro cracks of subsurface damages during etching process, Int. J. Nanomanufacturing,  Vol. 9, No. 5/6, 446 - 456, 2013

 

2012年及以前

1.  Guoliang Sun, Hairong Wang, Zhuangde Jiang, Cheng Guan, and Bike ZhangResponse characteristics of the sensor based on LaF3 thin film to different humidified gasesReview of Scientific Instruments, 2012 ,Vol.82, Issue, 083901-4

2.  Hairong Wang, Junqiang Ren, Huan Zhang, Guoliang Sun, and Zhuangde JiangSolid Potentiometric CO2 Sensor Using Li3PO4 Film as the ElectrolyteIEEE Sensor JournalVol.12No.62001-2005,2012

3.  Guoliang Sun, Hairong Wang, Zhuangde Jiang, Humidity response properties of a potentiometric sensor using LaF3 thin film as the solid electrolyte, Review of Scientific Instruments, 2011, Vol.82, Issue 8, 083901 (SCI:814VZ)

4.  Wang Hairong, Ren Junqiang, Sun Guoliang, Cen Di, Micro CO2 sensor based on Li2CO3, Pt | Li3PO4 | Pt, Li2TiO3-TiO2 structure, Applied Mechanics and Materials, Vol. 44-47, 2747-2751, 2011 (EI: 20110313586328)

5.  Hairong Wang, Di Cen, Guangfei Men, Jianyun Wang, An infrared absorption gas detection system applying plane blazed grating, Advanced Materials Research, Vol. 233-235, 2665-2668, 2011 (EI: 20112414059400)

6.  Yang CA, Zhao Q, Wang HR, Zhang ZStudy on intelligent control system of two-dimensional platform based on ultra-precision positioning and large range, Precision Engineering-Journal of the International Societies for Precision Engineering and Nanotechnology, Vol. 34, Issue. 3, 627-633, 2010 (SCI: 608SM, EI:20101712890778)

7.  Guoliang Sun, Hairong Wang,  Zhuangde Jiang, Tianshuo Yin, Design, fabrication and performance of SO2 sensor based on LaF3 solid-electrolyte, The 3rd INEC, 674-675, 2010 (EI: 20101812908027)

8.  Jiang ZhuangDe, Jang WeiXuan, Zhao YuLong, Wang HaiRong, Lu DeJiangAdvancement of micro/nanotechnology research in Institute of Precision Engineering of Xian Jiaotong University, International Journal of Computational Materials Science and Surface Engineering, Vol. 2, Issue. 3-4, 243-267, 2009 (EI: 20093412267143)

9.  Hairong Wang, Y . Fu, R . Du, Measuring the circular motion of small objects using laser stroboscopic images, Review of Scientific Instruments, Vol. 79, Issue 1, 0151101-7, 2008SCI257TQ)

10.  Xiangyang Zhou, Zhuangde Jiang, Hairong Wang, Ruixia Yu, Investigation on methods for dealing with pile-up errors in evaluating the mechanical properties of thin metal films at sub-micron scale on hard substrates by nanoindentation technique, Materials Science and Engineering: A, Vol.488Issue. 1-2, 318-332, 2008SCI343NH

11. Research into Application of Fractal Geometry in Charactering of Machined SurfacesInternational Journal of Machine Tools & Manufactures, v 41,Issue 13-14, 2179-2185,2001

12.  Zhou Xiangyang, Wang Hairong, Influence of lubrication performance on the service life of rolling mill bearings, International Journal of Plant Engineering and Management , Vol. 11, No. 3,184-192, 2006

13.  X.Y. Zhou, Z.D. Jiang, H.R. Wang, et al., A method to extract the intrinsic mechanical properties of soft metallic thin films based on nanoindentation continuous stiffness measurement technique, Journal of Physics: Conference Series, Vol. 48, 1096-1101, 2006

14.  Qiang Zhu, Zhuangde Jiang, Zexiang Zhao, Wang Hairong, Uncertainty estimation in measurement of micromechanical properties using random-fuzzy variables , Review of Scientific Instruments , Vol. 77, No. 3, 2006

15.  Wang Hairong Chung Wo Ong etc., Manually operated scratch tester for characterization of mechanical properties of thin films, Review of Scientific Instruments, Vol. 76, Issue 1, 1-4, 2005

16.  Wang Hairong Chung Wo Ong etc., Determination of film-only hardness by eliminating    the effects of elastic deformation of substrate, Surface and  Coating Technology, Vol. 200,   Issue 14-15, 4433-4439, 2006

17.  Wang Hairong, Jiang Zhuangde, Zhou Xiangyang, FEM applied to evaluate composite hardness of SiO2 film/ 316 LSS substrate system, Journal of Physics: Conference Series , Vol.48, 1090-1095,2006

18.  Jiang Zhuangde, Zhu Qiang, Zhao Zexiang, Wang Hairong, Yang Shuming, Optimal design of the loading mechanism in a tester for micro-mechanical properties, High Performance Structure and Materials, Vol. 7:527-536, 2004

 

2016年前发表的国际会议论文 

1.  Hairong Wang, Yuqing Yao, Guishan Wu, Qiao Sun, Mengya Wang, Xuyi Luo, Jiuhong Wang. A room temperature oxygen gas sensor based on hierarchical TiO2. International Conference IEEE 3M-NANO 2016,Chongqing,China.

2.  Hairong Wang, Qiao Sun, Guishan Wu, Yuqing Yao, Yang Yu, Yixue Li. Facile preparation of rutile TiO2 nanorod arrays in a low HCL concentration vapor environment by AVO process and characterizations. International Conference IEEE 3M-NANO 2016,Chongqing,China.

3.  Hairong Wang, Zhen Liu, Di Chen. Prototypes of potentiometric SO2 gas sensors based on Li3PO4 electrolyte thin film. IEEE 12th International Conference on  Electronic Mesurement & Instruments. Vol. 3 pp 1467-1470. July 16-18,2015, Qingdao, China

4.  Hairong Wang, Jiaxin Wang, Lei Chen, Yuqing Yao,Qiao Sun. An integrated MEMS O2 Sensor Based on Nanostructured TiO2 film, 2015 EMN Qingdao Meeting

5.Hairong Wang , Hongfeng Chen, Guanglong Fu, Huapan Xiao. The Influence of Grinding Process Parameters on Transmittance and Absorbance of the Optical Components. 2015, 3M-NANO 2012 Program Committee

6.  Wang Hairong, Liu Zhen, Chen Lei, Li Peng, Chen Di,Development of a potentiometric SO2 sensor based on Li3PO4 electrolyte and its characteristics (Accepted)

7.  Hairong Wang, Peng Li, Guoliang Sun, Zhuangde Jiang, Influence of Substrate Surface Roughness on the Properties of a Planar-type CO2 Sensor Using Evaporated Li3PO4 Film, IEEE-NEMS 2013, Suzhou, China, April 7-10, 2013, pp.385-388

8.   Rong Wang, Wei Zhang, Di Cen, Min Tian, A gas detection system based on the micro light splitting principle, Advanced Materials Research, Vol. 542 – 543, 57-65, 2012 (EI: 20124515656767)

9.  Wang HR, Guan C, Zhang BK, et al, 3D information of the micro cracks within the subsurface damages by finite difference method,nanoMan2012, July 25-27, 2012, Tokyo, Japan

10.  Wang Hairong, Sun Quntao, Chen lei, Zhang BikeZhao Yulong, Design and fabrication of TiO2 thin films oxygen sensors, 3M-NANO 2013(accepted)

11.  Hairong Wang* , Bike Zhang, Lihui Xiao, Quantao Sun, Guoying Yuan and Zhuangde Jiang, Investigation on HF based etching of the polished K9 glasses and its application in the subsurface damage, 3M-NANO 2013(accepted)

12.  Guoliang Sun, Hairong Wang, Zhuangde Jiang, Junqiang Ren, A potentiometric oxygen sensor based on LaF3 using Pt micro grid as the sensing electrode, IEEE-NEMS2011, Taiwan, China, February 20-23, 2011 (EI检索)

13.  Hairong Wang, Guoliang Sun, Cheng Guan, Can Chen, Zhuangde Jiang, Measuring subsurface damage of the ground sample by roughness along the bevel, International Conference on Frontier of Nanoscience and Technology (ICFNST) September 28-29, Kunming, China, 2011 (EI检索) Materials Science Form (EI检索)

14.  Guoliang Sun, Hairong Wang, Zhuangde Jiang, Xianni Gao, Tianshuo Yin Design of Pt electrode in a SO2 gas sensor based on LaF3 solid electrolyteProceedings of 4th IEEE International Conference on Nano/Micro Engineered and Molecular Systems January 5-8, Shenzhen, China, 538-541, 2009 (EI: 20094212372639)

15.  Hairong Wang, Xianni Gao, Guoliang Sun, Yulong Zhao, Zhuangde Jiang, 1.331μm narrow-bandwidth light source based on polymer micro-blazed grating, ASME Proceedings of MicroNano08, June 3-5, Hong Kong, China, 173-178, 2008EI: 20093812311024ISTPBIT06

16.  Hai R.Wang , Zhi T.Zhou, Zhuang D. Jiang, Guo L.Sun, Xian N. Gao, Chuan Yang, TiN coating/glass substrate system fabricated for hot-embossing stamp at multi-scale, Proceeding of the 3rd IEEE Int.Conf. on Nano/Micro Engineered and Molecular Systems January 6-9,Sanya, Hainan,China,1104-1107,2008 (EI : 20083611501497,ISTP: BHW70)

17.  Xiangyang Zhou, Zhuangde Jiang, Hairong Wang, Rui.X.Yu, Evaluation of mechanical properties of polycrystalline Al thin films on 7059 glass substrates, Proceedings of the 7th IEEE International Conference on Nanotechnology August 2-5, Hong Kong, China, 1260-1264, 2007 (EI: 20084111624404,ISTP: BIO98)

18.  Xiangyang Zhou, Zhuangde Jiang, Hairong Wang, Hardness determination of Au thin films by nanoindentation techniques —A comparative study on various  characterizing methods, Proceedings of the International Conference on Integration and Commercialization of Micro and Nanosystems January 10-13, Sanya, Hainan, China, 621-627, 2007 (EI: 20073410774679)

19.  Yu RuixiaChen Hualing, ChenTianning, Wang Hairong, Topology optimization of MEMS-based biodegradable controlled drug delivery system for combination therapy, Proceedings of the International Conference on Integration and Commercialization of Micro and Nanosystems January 10-13, Sanya, Hainan, China, 27-31,2007EI20073410774588

20. Hairong Wang, Xianni Gao, Guoliang Sun, Cen Di, Zhuangde Jiang, Micro polymer micro-blazed grating fabricated by HEL and its application on sensing methane concentration, The 8th International Symposium on Test and Measurement, August 23-26, Chongqing, China, 2009ISTP: BNZ88

21. Wang Hairong, JiangZhuangde, Zhao Zexiang, R. Du, An Instrument for Determining Mechanical Properties of MEMS Materials by Nanoindentation and Micro beam-bending, Proceedings of MNC2007 MicroNanoChina07 January 10-13, 2007, Sanya, Hainan, China

22. Zhou X.Y., Jiang Z.D. and Wang H.R., Hardness determination of Au thin film by nanoindentation technique — a comparative study on various characterizing methods, Proceedings of MNC2007 MicroNanoChina07 January 10-13, 2007, Sanya, Hainan, China

23. Zhou Xiangyang, Wang Hairong, Jiang Zhuangde, Development of the Micro-Displacement Amplifier for a Novel Tester Measuring Mechanical Properties of MEMS Materials, Proceedings of ICMEM2005, International Conference on Mechanical Engineering and Mechanics, VOLS 1 AND 2:1378-1382, October 26-28, 2005, Nanjing, China

24.  Zhao Zexiang, Wang Hairong , Jiang Zhuangde, Determination of elastic modulus for several kinds of micro beams with variable moments of inertia, Proceedings of The 3rd International Symposium on Instrument and Technology, Vol.1, 1023-1029, 2004

25.  Zhao Zexiang, Wang Hairong, Evaluation mechanical properties of MEMS material’s, Proceedings of The 3rd International Symposium on Instrument and Technology, Vol. 2, 139-144, 2002

 

国内期刊

1. 丁如义,张欢,孙全涛,王海容,陈磊,应用于气体传感器的加热丝埋入式微热板研制,传感器与微系统,(已录用)

2. 孙国良,王海容,高鲜妮,蒋庄德,基于HEL的闪耀光栅制备工艺与结构保真性研究,压电与声光,2010 (EI检索)

3. 张英,王海容,高鲜妮,蒋庄德,红外吸收式光纤甲烷气体传感器系统的研究,压电与声光,第30卷,第2期,156-1582008EI: 20082811368854

4. 王海容,蒋庄德,刘俊明,周志涛,张英,MMI微压印模板的设计与研究,压电与声光,第30卷,第1期,36-382008EI20081411184254

5.  周向阳,蒋庄德,王海容,基于等模量假设的软金属薄膜本征模量的纳米压入评定,稀有金属材料与工程,第36卷,第10期,1736-17402007 (SCI: 231PM)

6. 张英,王海容,蒋庄德,半导体吸收式光纤温度传感器的研究,压电与声光,第29卷,第4期,389-3912007EI20073710811057

7. 周向阳,蒋庄德,王海容,压入测试仪柔度标定方法研究,仪器仪表学报,第28卷,第1期,85-892007 (EI: 20071110488144)

8. 周向阳,蒋庄德,王海容,仪器柔度对压入法测试结果的误差影响与校准,计量学报,第28卷,第4期,339-3432007 (EI: 20074710937400)

9. 孙国良,王海容,高鲜妮,周志涛,蒋庄德,TiN模板热压印中的若干关键影响因素仿真分析,机械强度,第33卷,第2期,285-2892011

10. 禹忠,蒋庄德,李蓉,王海容,一种三维Mach_Zehnder型抗共振反射光波压力传感器,光电器件,第30卷,第4期,526-5292010

11. 禹忠,蒋庄德,李蓉,王海容,聚酰亚胺多模干涉器结构的光学加速度传感器,探测与控制学报,第21卷,第1期,6-102010

12. 禹忠,李蓉,王海容,蒋庄德,BCB/SiO2双导芯层叠ARROW结构压力传感器设计,微纳电子技术,第47卷,第4期,237-2412010

13. 周向阳蒋庄德王海容 ,基于弹性流体动力润滑理论的轧机轴承早期失效分析 , 润滑与密封 , Vol. 4, 51-54,2006,

14. 蒋庄德,王海容微机械力学性能测试仪,河南机电高等专科学报,Vol.14, No.1, 1-4, 2006

15. 朱强,蒋庄德,王海容,赵则祥,微构件弹性模量测量的模糊建模与分析,西安交通大学学报, Vol. 39, No.5, 517-521, 2005

16. 朱强,蒋庄德,赵则祥,王海容,杨树明,在纳米压入仪上进行悬臂梁法测量弹性模量的影响印度分析,稀有金属材料与工程, Vol.34, No.11, 1842-1845,2005

17. 赵则祥,胡勇,王海容,蒋庄德,用纳米压入法测量硼化铪涂层的弹性模量,机械强度, Vol. 25, No. 5, 587-590, 2003

18. 王海容,赵则祥,蒋庄德,压电作动器在微力微位移装置中的应用,压电与声光,Vol.24, No.2, 101-103, 2002

19. 赵则祥,蒋庄德,王海容,纳米压入法微机械材料力学性能测量不确定度的影响因素分类及评价,稀有金属材料与工程,Vol. 31, No. 5, 363-366, 2002

20. 王海容,蒋庄德,尹燕玲,切削加工表面分形机理的研究,机械科学与技术, Vol. 21, No.1, 13-15, 2002

21. 王海容,赵则祥,蒋庄德,大行程纳米分辨率加载机构的研制,机械强度,第23卷,第4期,452-4552001

22. 蒋庄德,赵则祥,王海容,基于MEMS的光开关研发与产业化问题,微细加工技术,第4期,74-782001

23. 蒋庄德,王海容,王朝晖,纳米测量技术与微型智能仪器,中国机械工程,第11卷,第3期,16-192000

24. 费斌,蒋庄德,王海容,基于遗传算法求解分形无标度区的方法,西安交通大学学报,第32卷,第7期,72-761998

25. 费斌,蒋庄德,王海容,机械加工表面分形特性的研究,西安交通大学学报,第32卷,第5期,83-871998

26. 蒋庄德,王海容,陈伟,分数布朗运动应用于机械加工表面形貌的评定,现代计量测试,第5卷,第6期,15-211997