近五年发表论文及专利

近五年发表论文及专利

2021

1. Hongmei Chen, Yanyun Fan, Hongyan Xu, Danfeng Cui, Chenyang Xue, Wendong Zhang.A facile and green microwave hydrothermal method for fabricating g-C3N4 nanosheets with improved hydrogen evolution performance[J].Journal of Alloys and Compounds,2021,836.

2.  JIAMIN CHEN, CHENYANG XUE, YONGQIU ZHENG,LIYUN WU,CHEN CHEN, AND YUAN HAN.Micro-fiber-optic acoustic sensor based on high-Q resonance effect using Fabry-Pérot etalon[J].OPTICS EXPRESS,2021,29(11).

3. Zheng Fan， Danfeng Cui , Zengxing Zhang , Zhou Zhao , Hongmei Chen , Yanyun Fan , Penglu Li ,Zhidong Zhang  , Chenyang Xue , and Shubin Yan.Recent Progress of Black Silicon: From Fabrications to Applications[J].nanomaterials,2021,11(41).

4. Yanyun Fan, Hongmei Chen, Danfeng Cui, Zheng Fan, Chenyang Xue.NiCo2O4/g-C3N4 heterojunction photocatalyst for efficient H2 generation[J].Energy Technology,2021,9(5).

5. Wenjun Zhang, Congcong Hao, Zengxing Zhang, Shasha Yang, Jiali Peng, Bin Wu, Xiaobin Xue, Junbin Zang, Xu Chen, Hua Yang, Dalei Song, Chenyang Xue, Zhidong Zhang, and Renxin Wang.Vector High-Resolution Marine Turbulence Sensor Based on a MEMS Bionic Cilium-Shaped Structure[J].IEEE sensors journal,2021,21(7).

2020

1.Zengxing Zhang,Thomas Martinsen,Guohua Liu,Muhammad Tayyib,Danfeng Cui,Meint J. Boer,Frank Karlsen,Henrik Jakobsen,Chenyang Xue,Kaiying Wang. Ultralow Broadband Reflectivity in Black Silicon via Synergy between Hierarchical Texture and Specific‐Size Au Nanoparticles[J]. Advanced Optical Materials,2020,8(19).

2.Zhuqing Yan, Yaxin Zhao, Dan Liu*, Zhidong Zhang, Yongqiu Zheng, Juan Cui, Yanjun Zhang* and Chenyang Xue. Thermoelectric properties of flexible PEDOT:PSS-based films tuned by SnSe via the vacuum filtration method, RSC Adv., 2020,10, 43840-43846.   

3.He S , Zhang Z , Zhai C , et al. Triboelectric Harvesting by a Dual-Tip Peak Power Multiplier under Airtight Condition[J]. Energy Technology, 2020.

4.Cui, DF (Cui, Danfeng); Li, YF (Li, Yanfang); Li, YK (Li, Yuankai) ; Fan, YY (Fan, Yanyun); Chen, HM (Chen, Hongmei); Xu, HY (Xu, Hongyan); Xue, CY (Xue, Chenyang) Co3O4@MnMoO4 Nanorod Clusters as an Electrode Material for Superior Supercapacitors Int. J. Electrochem. Sci., pp. 2776–2791, Mar. 2020, doi: 10.20964/2020.03.42.

5.Xue Xiaobin, Zhang Zengxing, Wu Bin, He Shanshan, Wang Qiang, Zhang Wenjun, Bi Ruiyu, Cui Juan, Zheng Yongqiu, Xue Chenyang, Coil-levitated hybrid generator for mechanical energy harvesting and wireless temperature and vibration monitoring, In Journal of SCIENCE CHINA Technological Sciences, ISSN 1674-7321, https://doi.org/10.1007/s11431-020-1755-4.

2019

6.Hai, ZY; Akbari, MK; Wei, ZH; Zuallaert, J; De Neve, W; Xue, CY; Xu, HY; Verpoort, F; Zhuiykov, S. Electrochromic Photodetectors: Toward Smarter Glasses and Nano Reflective Displays via an Electrolytic Mechanism[J]. Acs Applied Materials & Interfaces. 2019, 11(31):27997-28004.(SCI)

7.Liu, C; Zhang, BZ ; Xue, CY ; Zhang, WD ; Zhang, GJ ; Cheng, YJ; Multi-Perspective Ultrasound Imaging Technology of the Breast with Cylindrical Motion of Linear Arrays[J].Applied Sciences-Basel,9(3).(SCI)

8.Liu, C; Zhang, BZ ; Xue, CY ; Zhang, GJ ; Zhang, WD ; Cheng, YJ. The Application of Adaptive Time Gain Compensation in an Improved Breast Ultrasound Tomography Algorithm[J]. Applied Sciences-Basel, 9(12).(SCI)

9.Cui, DF; Li, YF; Chen, Y; Li, YK; Hai, ZY ; Xu, HY; Xue, CY; Synthesis of CoTiO3 nanoparticles with enhanced photocatalytic degradation[J]. Micro & Nano Letters, 2019, 14(8):840-844.(SCI)

10.Hao, CC ; He, J ; Zhai, C; Jia, W; Song, LL; Cho, JD; Chou, XJ ; Xue, CY. Two-dimensional triboelectric-electromagnetic hybrid nanogenerator for wave energy harvesting[J]. Nano Energy 2019, 58:147-157 .(SCI)

2018

11.Jinlong Song, Changde He, Renxin Wang , Chenyang Xue and Wendong Zhang , A Mathematical Model of a Piezo-Resistive Eight-Beam Three-Axis Accelerometer with Simulation and Experimental Validation, Sensors 2018, 18(11), 3641.(SCI)

12.Tian, ZM (Tian, Zhumei);He, J (He, Jian);Chen, X (Chen, Xi);Wen, T (Wen, Tao);Zhai, C (Zhai, Cong);Zhang, ZX (Zhang, Zengxing);Cho, JD (Cho, Jundong);Chou, XJ (Chou, Xiujian);Xue, CY (Xue, Chenyang)，Core–shell coaxially structured triboelectric nanogenerator for energy harvesting and motion sensing，RSC Adv., 2018, 8, 2950–2957.(SCI)

13.Zengxing Zhang;Kang Du;Xi Chen;Chenyang Xue;Kaiying Wang， An Air-cushion Triboelectric Nanogenerator Integrated with Stretchable Electrode for Human-Motion Energy Harvesting and Monitoring，Nano Energy 53 (2018) 108–115.(SCI)

14.Chen X, He J, Song L, Zhang Z, Tian Z, Wen T, Zhai C, Chen Y, Cho J, Chou X, Xue C, Flexible one-structure arched triboelectric nanogenerator based on common electrode for high efficiency energy harvesting and self-powered motion sensing[J]. Aip Advance, 2018,8(4).(SCI)

15.Liu C, Xue C, Zhang B, Zhang G, He C, The Application of an Ultrasound Tomography Algorithm in a Novel Ring 3D Ultrasound Imaging System[J]. Sensors, 2018, 18(5), 1332.(SCI)

16.Zhai C, Chou X, He J, Song L, Zhang Z, Wen T, Tian Z, Chen X, Zhang W, Niu Z, Xue C, An electrostatic discharge based needle-to-needle booster for dramatic performance enhancement of triboelectric nanogenerators[J]. Applied Energy, 2018, 231:1346-1353.(SCI)

17.Chen Y, Li Y, Hai Z, Li Y, Kan S, Chen J, Chen X, Zhuiykov S, Cui D, Xue C, Facile-synthesized NiCo2O4@MnMoO4 with novel and functional structure for superior performance supercapacitors[J]. Applied Surface Science. 2018, 452:413-422.(SCI)

18.Li Y, Hou X, Zhang Z, Hai Z, Xu H, Cui D, Zhuiykov Serge, Xue C, NiCo2O4 particles with diamond-shaped hexahedron structure for high-performance supercapacitors[J]. Applied Surface Science. 2018, 436:242-251.(SCI)

2017

19.Wen T, He J, Zhang Z, Tian Z, Mu J, Han J, Chou X, Xue C, Electromagnetic-triboeletric hybridized generator based on magnetic levitation for scavenging biomechanical energy[J]. Acta Physica Sinica. 2017, 66 (22).(SCI)

20.Li Y, Hai Z, Hou X, Xu H, Zhang Z, Cui D, Xue C, Zhang B. Self-assembly of 3d fennel-like co3o4 with thirty-six surfaces for high performance supercapacitor[J]. Journal of Nanomaterials, 2017, (2017-3-7), 70(4), 295.(SCI)

21.Zhang Z, He J, Wen T, Zhai C, Han J, Wen T, Zhai C, Han J, Mu J, Jia W , Zhang B, Zhang W, Chou X, Xue C. Magnetically levitated-triboelectric nanogenerator as a self-powered vibration monitoring sensor[J]. Nano Energy, 2017, 33:88-97. (SCI)

22.Zhang Z, Jian H, Han J, Xu H, Mu J, Wen T, Wang D, Tian Z , Chen Z, Xue C. Magnetically levitated/piezoelectric/triboelectric hybrid generator as a power supply for the temperature sensor[J]. Science China Technological Sciences, 2017, 60(7):1-7.(SCI)

23.Tian Z, He J, Chen X, Zhang Z, Wen T, Zhai C, Han J, Mu J, Hou X, Chou X, Xue, C. Performance-Boosted Triboelectric Textile for Harvesting Human Motion Energy[J]. Nano Energy, 2017, 39.(SCI)

2016

24.Zhang, Rui ，Zhang, Wendong，He, Changde，Zhang, Yongmei，Song, Jinlong， Xue, Chenyang，Underwater Imaging Using a 1 x 16 CMUT Linear Array，Sensors，2016.3.01，16(3).(SCI)

25.Hai Z, Gao, L, Zhang Q, Xu H, Cui D, Zhang Z, Tsoukalas D, Tang J, Yan S, Xue C. Facile synthesis of core–shell structured PANI-Co3O4 nanocomposites with superior electrochemical performance in supercapacitors[J]. Applied Surface Science, 2016, 361: 57-62. (SCI)

26.Tong X, Hai Z, Cui D, Gao L, Zhang Q, Xu H, Xu H, Ma Y, Xue C. Investigation of lattice distortion of Co3O4 nanoparticles prepared by a carbon-assisted method[J]. Microelectronic Engineering, 2016, 159: 17-20.(SCI)

27.Wang Y., Xue C, Zhang Z, Zheng H, Zhang W, Yan S. Tunable optical analog to electromagnetically induced transparency in graphene-ring resonators system[J]. Scientific reports, 2016, 6: 38891.(SCI)

28.Zhang Q, Hai Z, Jian A, Xu H, Xue C, Sang S. Synthesis of p-Co3O4/n-TiO2 nanoparticles for overall water splitting under visible light irradiation[J].   Nanomaterials, 2016, 6(8): 138.(SCI)

2015

29. Xu, HY; Hai, ZY; Diwu, JT; Zhang, Q; Gao, LB; Cui, DF; Zang, JB; Liu, J; Xue, CY. Synthesis and microwave absorption properties of core-shell structured co3o-pani nanocomposites[J]. Journal of Nanomaterials, 2015(5), 1-8.(SCI)

专利：

1.基于针尖阵列结构的石墨烯-PDMS柔性衬底心电干电极及其制备方法 - 201810784683.2

2.一种用于检查乳腺的超声CT系统及其扫描方法 - 201811029513.X

3.一种多薄膜封装式波导耦合谐振腔结构的宽频带、高灵敏度声传感器 - 201810970032.2

4.基于MEMS技术的心音心电微型原位同步检测传感器 - 201810784684.7

5.采空区高温点无线监测方法 - 201810180317.6

6.一种涂覆TiO2薄膜的光波导型微环谐振腔湿度传感器的制备方法 - 201810127881.1

7.一种基于光学微球型谐振腔的湿度传感器 - 201810129416.1

8.基于磁电-压电复合式结构的发电螺钉 - 201810013128.X

9.高输出稳定性的压阻式三轴加速度计 - 201711113324.6

10.柔性可拉伸一体式压电橡胶及其制备方法 - 201710839323.3

11.基于叉指电极结构柔性可拉伸压电纳米发电机及制备方法 - 201710839315.9

12.基于CMUT环形阵列的乳腺超声成像系统及其检测方法 - 201710553431.4

13.基于MEMS声传感原理的电子式听诊器 - 201710553457.9

14.基于TMAH的气相刻蚀方法及气相刻蚀装置 - 201710544513.2

15.TMAH硅雾化气相刻蚀系统 - 201710539774.5

16.基于气相TMAH的硅刻蚀系统 - 201710539775.X

17.面向MEMS湍流探测的共模抑制振动补偿传感器结构 - 201710410258.2

18.单片集成的压阻式三轴加速度计及制备方法 - 201710350290.6

19.低轴间耦合度的八梁三轴加速度传感器 - 201710350327.5

20.具有抗过载能力的压阻式三轴加速度传感器及制备方法 - 201710350326.0

21.基于压阻效应的MEMS同振型球形振子矢量水听器 - 201710226797.0

22. 一种超宽频带MEMS换能器 – ZL 201710217878.4 

23.一种悬臂梁式薄膜压力发电结构 – ZL201720333432.3

24.基于压电效应的MEMS同振型球形振子矢量水听器 - 201710144005.5

25.基于压电效应的MEMS三维同振型矢量水听器 - 201710144004.0

26. 金属微纳超结构表面等离激元超快探测结构 – ZL 201710075997.0

27.收发平衡的宽频带混合式超声换能器面阵探头及制备方法 - 201710009218.7

28.医用微电容超声换能器面阵探头及其制备方法 - 201710009234.6

29.收发性能平衡的微机电超声换能器面阵探头及其制备方法 - 201710009233.1

30.微机电超声探头及电路 - 201710009206.4

31.端面耦合纳米光波导双光路芯片级磁强计 - ZL201621318465.2

32.垂直耦合纳米光波导双光路芯片级磁强计 - ZL201621318526.5

33.端面耦合光栅芯片级多环波导腔级联矢量高灵敏声传感器 - 201611093434.6

34.“三明治”型超快光电探测金属超结构的制作方法 - 201611092921.0

35.垂直耦合光栅芯片级多环波导腔级联矢量高灵敏声传感器 - 201611093334.3

36.一种“三明治”型超快光电探测金属超结构的制作方法 - 201611092921.0;106409984B

37.端面耦合纳米光波导双光路芯片级原子钟 -ZL 201621204170.2

38.垂直耦合纳米光波导双光路芯片级原子钟 - ZL 201621203761.8

39.一种MEMS二维湍流传感器结构及其制备方法 - 201610876594.1

40.一种矿用MEMS风速计电绝缘自清洁封装方法 - 201610785127.8

41.一种煤机装备无线无源监测系统 - 201610695303.9

42.一种转动环境下同轴反向型电磁式发电机 - 201610657871.X

43. 三明治型金属超结构的红外辐射光源及制作方法 – ZL 201610576033.X

44. 基于MEMS技术的全海深湍流混合矩阵型剖面观测系统 – ZL 201610573834.0

45.基于反铁电材料相变致动效应的薄膜体声波谐振器 - 201610538711.3

46.MEMS湍流传感器的封装方法 - 201610488805.4

47.一种基于表面等离极化激元波导全光二极管的结构设计 – ZL 201610324517.5

48.磁铁悬浮型振动驱动电磁式能量采集器 – ZL 201610243462.5

49. 磁体阵列平面转动式能量采集器 – ZL 201610243463.X

50.线圈悬浮型振动驱动电磁式能量采集器 – ZL 201610243435.8

51. 摩擦-压电-磁电复合式振动微能源采集器 – ZL 201610243461.0

52. 一种自动定向追踪并反馈的光电通信装置及方法 – ZL 201610191459.3

53.集成黑硅纳米结构吸收层及多层组合膜结构的敏感元件 - 201610043556.8

54.一种基于MEMS传感器的榫卯式心音探头 - ZL201921937112.4

55.一种深海挂载释放机构 - ZL201910372010.0