[118] Wireless battery-free wearable sweat sensor powered by human motion.

Song Y¹, Min J¹, Yu Y, Wang H, Yang Y, Zhang H, Gao W^*

Science Advances 2020, 6, eaay9842.

[117] Self-powered flexible and transparent smart patch for temperature sensing.

Chen X, Ren Z, Guo H, Cheng X, Zhang H^*

Applied Physics Letters 2020, 116, 043902.

[116] A three-electrode multi-module sensor for accurate bodily-kinesthetic monitoring.

Wang H, Song Y, Guo H, Wan J, Miao L, Xu C, Ren Z, Chen X, Zhang H^*

Nano Energy 2020, 68, 104316.

[115] Self-powered multifunctional electronic skin for a smart anti-counterfeiting signature system.

Guo H, Wan J, Wu H, Wang H, Miao L, Song Y, Chen H, Han M, Zhang H^*

ACS Applied Materials Interfaces 2020, 12, 22357-22364.

[114] A flexible hybridized electromagnetic-triboelectric nanogenerator and its application for 3D trajectory sensing.

Wan J, Wang H, Miao L, Chen X, Song Y, Guo H, Xu C, Ren Z, Zhang H^*

Nano Energy 2020, 74, 104878.

[113] Hybrid energy cells based on triboelectric nanogenerator: From principle to system.

Chen X, Ren Z, Han M, Wan J, Zhang H^*

Nano Energy 2020, 75, 104980.

[112] Flexible and stretchable triboelectric nanogenerator devices: toward self-powered systems.

Han M, Zhang X, Zhang H^*

John Wiley & Sons 2019.

[111] An active temperature sensor based on encapsulated flexible and transparent triboelectric nanogenerator.

Wan J, Wang H, Miao L, Guo H, Chen H, Cheng X, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2019 14th IEEE International Conference on. 2019: 229-232.

[110] Study on ultra-high sensitivity piezoelectric effect of GaN micro/nano columns.

Fu J, Zong H, Hu X, Zhang H^*

Nano Convergence 2019, 6, 1-10.

[109] Kirigami cross-shaped 3D buckling active sensor for detecting stretching and bending.

Miao L, Wan J, Guo H, Wang H, Song Y, Chen X, Zhang H^*

Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2019 Transducers-2019 20th International Conference on. 2019: 2488-2491.

[108] Self-powered transparent stretchable 3D motion sensor.

Guo H, Chen X, Miao L, Wang H, Wan J, Zhang H^*

Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2019 Transducers-2019 20th International Conference on. 2019: 554-557.

[107] Stamp-Assisted gravure printing of micro-supercapacitors with general flexible substrates.

Wang H, Song Y, Miao L, Wan J, Chen X, Cheng X, Guo H, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2019 IEEE 32nd International Conference on. 2019: 950-953.

[106] A laser-engraved wearable sensor for sensitive detection of uric acid and tyrosine in sweat.

Yang Y¹, Song Y¹, Bo X, Min J, Pak O, Zhu L, Wang M, Tu J, Kogan A, Zhang H, Gao W^*

Nature Biotechnology 2019, 38, 217-224.

[105] Localized modulus-controlled PDMS substrate for 2D&3D stretchable electronics.

Miao L, Guo H, Wan J, Wang H, Song Y, Chen H, Chen X, Zhang H^*

Journal of Micromechanics and Microengineering 2019, 30, 045001.

[104] Self-cleaning organic solar cells based on micro/nanostructured haze films with optical enhancement effect.

Ren Z, Zheng Q, Chen X, Wang H, Guo H, Miao L, Wan J, Xu C, Cheng S^*, Zhang H^*

Applied Physics Letters 2019, 115, 213902.

[103] Self-powered electronic skin based on the triboelectric generator.

Chen H, Song Y, Cheng X, Zhang H^*

Nano Energy 2019, 56, 252 - 268.

[102] Self-powered digital-analog hybrid electronic skin for noncontact displacement sensing.

Guo H, Wu H, Song Y, Miao L, Chen X, Chen H, Su Z, Han M, Zhang H^*

Nano Energy 2019, 58, 121-129.

[101] Power management and effective energy storage of pulsed output from triboelectric nanogenerator.

Cheng X, Tang W, Song Y, Chen H, Zhang H^*, Wang Z^*

Nano Energy 2019, 61, 517-532.

[100] Wearable and self-cleaning hybrid energy harvesting system based on micro/nanostructured haze film.

Ren Z, Zheng Q, Wang H, Guo H, Miao L, Wan J, Xu C, Cheng S^*, Zhang H^*

Nano Energy 2019, 104243.

[99] Liquid assembly of floating nanomaterial sheets for transparent electronics.

Su Z, Yu HSC, Zhang X^*, Brugger J^*, Zhang H^*

Advanced Materials Technologies 2019, 4, 1900398.

[98] Skin-inspired humidity and pressure sensor with a wrinkle-on-sponge structure.

Miao L, Wan J, Song Y, Guo H, Chen H, Cheng X, Zhang H^*

ACS Applied Materials & Interfaces 2019, 11, 39219 - 39227.

[97] High-efficiency self-charging smart bracelet for portable electronics.

Song Y, Wang H, Cheng X, Li G, Chen X, Chen H, Miao L, Zhang X, Zhang H^*

Nano Energy 2019, 55, 29-36.

[96] Hybrid porous micro structured finger skin inspired self-powered electronic skin system for pressure sensing and sliding detection.

Chen H, Song Y, Guo H, Miao L, Chen X, Su Z, Zhang H^*

Nano Energy 2018, 51, 496-503.

[95] All-in-one self-powered flexible microsystems based on triboelectric nanogenerators.

Zhang X-S, Han M, Kim B, Bao J-F, Brugger J, Zhang H^*

Nano energy 2018, 47, 410-426.

[94] Fabric-based self-powered noncontact smart gloves for gesture recognition.

Wu H, Guo H, Su Z, Shi M, Chen X, Cheng X, Han M, Zhang H^*

Journal of Materials Chemistry A 2018, 6, 20277-20288.

[93] All-in-one piezoresistive-sensing patch integrated with micro-supercapacitor.

Song Y, Chen H, Chen X, Wu H, Guo H, Cheng X, Meng B, Zhang H^*

Nano Energy 2018, 53, 189-197.

[92] Hybrid generator based on freestanding magnet as all-direction in-plane energy harvester and vibration sensor.

Chen X, Guo H, Wu H, Chen H, Song Y, Su Z, Zhang H^*

Nano energy 2018, 49, 51-58.

[91] Fingerprint-inspired triboelectrific sliding sensor.

Chen H, Song Z, Song Y, Chen X, Miao L, Su Z, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2018 IEEE 31st International Conference on. 2018: 878-881.

[90] Wearable stretchable double-sided micro-supercapacitors with porous conductive elastomers.

Song Y, Song Z, Chen H, Chen X, Guo H, Wu H, Cheng X, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2018 IEEE 31st International Conference on. 2018: 608-611.

[89] Wide range fabrication of wrinkle patterns for maximizing surface charge density of a triboelectric nanogenerator.

Cheng X, Song Z, Miao L, Guo H, Su Z, Song Y, Zhang H^*

Journal of Microelectromechanical Systems 2018, 27, 106-112.

[88] GPS-inspired stretchable self-powered electronic skin.

Zhang J, Song Z, Guo H, Song Y, Yu B, Zhang H^*

IEEE Transactions on Nanotechnology 2018, 17, 460-466.

[87] Waterproof and stretchable triboelectric nanogenerator for biomechanical energy harvesting and self-powered sensing.

Chen X, Miao L, Guo H, Chen H, Song Y, Su Z, Zhang H^*

Applied Physics Letters 2018, 112, 203902.

[86] Flexible fabric-based wearable solid-state supercapacitor.

Huang J, Song Y, Chen X, Zhang X, Miao L, Chen H, Zhang J, Meng B, Brugger J, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2017 IEEE 12th International Conference on. 2017: 169-172.

[85] A novel multi-functional self-powered pressure sensor with hierarchical wrinkle structure.

Miao L, Cheng X, Song Y, Chen H, Meng B, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2017 IEEE 12th International Conference on. 2017: 114-117.

[84] Stretchable thin-film generator with dual working modes for body motion energy harvesting.

Chen X, Song Y, Chen H, Zhang J, Su Z, Cheng X, Meng B, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2017 IEEE 30th International Conference on. 2017: 869-872.

[83] Freestanding solid-state micro-supercapacitor based on laser-patterned nanofibers.

Song Y, Chen X, Chen H, Cheng X, Zhang J, Su Z, Miao L, Meng B, Yuan Q, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2017 IEEE 30th International Conference on. 2017: 809-812.

[82] Stretchable, transparent and wearable sensor for multifunctional smart skins.

Zhang J, Song Y, Chen H, Cheng X, Chen X, Meng B, Yuan Q, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2017 IEEE 30th International Conference on. 2017: 1025-1028.

[81] Triboelectrification based active sensor for liquid flow and bubble detetecting.

Cheng X, Miao L, Chen H, Song Y, Su Z, Chen X, Wang H, Zhang M, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2017 IEEE 30th International Conference on. 2017: 845-848.

[80] Bioinspired microporous elastomer with enhanced and tunable stretchability for strain sensing device.

Su Z, Chen X, Chen H, Song Y, Cheng X, Meng B, Song Z, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2017 IEEE 30th International Conference on. 2017: 1036-1039.

[79] Self-powered wireless smart patch for healthcare monitoring.

Shi M, Wu H, Zhang J, Han M, Meng B, Zhang H^*

Nano Energy 2017, 32, 479-487.

[78] Omnidirectional Bending and Pressure Sensor Based on Stretchable CNT‐PU Sponge.

Chen H, Su Z, Song Y, Cheng X, Chen X, Meng B, Song Z, Chen D, Zhang H^*

Advanced functional materials 2017, 27, 1604434.

[77] All-fabric-based wearable self-charging power cloth.

Song Y, Zhang J, Guo H, Chen X, Su Z, Chen H, Cheng X, Zhang H^*

Applied Physics Letters 2017, 111, 073901.

[76] A wave-shaped hybrid piezoelectric and triboelectric nanogenerator based on P (VDF-TrFE) nanofibers.

Chen X, Han M, Chen H, Cheng X, Song Y, Su Z, Jiang Y, Zhang H^*

Nanoscale 2017, 9, 1263-1270.

[75] An ultrathin stretchable triboelectric nanogenerator with coplanar electrode for energy harvesting and gesture sensing.

Chen X, Song Y, Chen H, Zhang J, Zhang H^*

Journal of Materials Chemistry A 2017, 5, 12361-12368.

[74] Flexible fiber-based hybrid nanogenerator for biomechanical energy harvesting and physiological monitoring.

Chen X, Song Y, Su Z, Chen H, Cheng X, Zhang J, Han M, Zhang H^*

Nano energy, 2017, 38, 43-50.

[73] High efficiency power management and charge boosting strategy for a triboelectric nanogenerator.

Cheng X, Miao L, Song Y, Su Z, Chen H, Chen X, Zhang J, Zhang H^*

Nano Energy 2017, 38, 438-446.

[72] Fabrication of controlled hierarchical wrinkle structures on polydimethylsiloxane via one-step C4F8 plasma treatment.

Miao L, Cheng X, Chen H, Song Y, Guo H, Zhang J, Chen X, Zhang H^*

Journal of Micromechanics and Microengineering 2017, 28, 015007.

[71] Liquid metal droplet based tube-shaped electrostatic energy harvester.

Chen H, Song Y, Han M, Yu B, Cheng X, Chen X, Chen D, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2016 IEEE 29th International Conference on. 2016: 1252-1255.

[70] Ultra-sensitive transparent and stretchable pressure sensor with single electrode.

Zhang J, Shi M, Chen H, Han M, Song Y, Cheng X, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2016 IEEE 29th International Conference on. 2016: 173-176.

[69] A flexible and wearable generator with fluorocarbon plasma induced wrinkle structure.

Cheng X, Chen X, Meng B, Han M, Shi M, Chen H, Song Y, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2016 IEEE 29th International Conference on. 2016: 1181-1184.

[68] A single-electrode wearable triboelectric nanogenerator based on conductive & stretchable fabric.

Shi M, Zhang J, Han M, Song Y, Su Z, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2016 IEEE 29th International Conference on. 2016: 1228-1231.

[67] Fabrication of stretchable and flexible vertically aligned carbon nanotube film.

Wang H, Shi M, Zhu K, Su Z, Zhang M, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2016 IEEE 11th Annual International Conference on. 2016: 482-485.

[66] Highly compressible solid-state supercapacitor with folded paper-based electrode.

Song Y, Cheng X, Chen H, Han M, Chen X, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2016 IEEE 11th Annual International Conference on. 2016: 536-539.

[65] Fabrication of well aligned P (VDF-TrFE) nanofibers with asymmetric comb-shape electrode.

Chen X, Cheng X, Han M, Song Z, Jiang Y, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2016 IEEE 11th Annual International Conference on. 2016: 478-481.

[64] Fabrication and characterization analysis of flexible porous nitrogen-doped carbon-based supercapacitor electrodes.

Song Y, Meng B, Chen X, Chen H, Han M, Cheng X, Zhang H^*

Chinese Science Bulletin 2016, 61, 1314-1322.

[63] A flexible large-area triboelectric generator by low-cost roll-to-roll process for location-based monitoring.

Cheng X, Song Y, Han M, Meng B, Su Z, Miao L, Zhang H^*

Sensors and Actuators A: Physical 2016, 247, 206-214.

[62] A flexible and transparent graphene-based triboelectric nanogenerator.

Shankaregowda SA, Nanjegowda CB, Cheng X, Shi M, Liu Z, Zhang H^*

IEEE Transactions on Nanotechnology 2016, 15, 435-441.

[61] Single‐step fluorocarbon plasma treatment‐induced wrinkle structure for high‐performance triboelectric nanogenerator.

Cheng X, Meng B, Chen X, Han M, Chen H, Su Z, Shi M, Zhang H^*

Small 2016, 12, 229-236.

[60] Asymmetrical triboelectric nanogenerator with controllable direct electrostatic discharge.

Su Z, Han M, Cheng X, Chen H, Chen X, Zhang H^*

Advanced Functional Materials 2016, 26, 5524-5533.

[59] Implantable and self-powered blood pressure monitoring based on a piezoelectric thinfilm: Simulated, in vitro and in vivo studies.

Cheng X, Xue X, Ma Y, Han M, Zhang W, Xu Z, Zhang H, Zhang H^*

Nano Energy 2016, 22, 453-460.

[58] Self-powered analogue smart skin.

Shi M, Zhang J, Chen H, Han M, Shankaregowda SA, Su Z, Meng B, Cheng X, Zhang H^*

ACS nano 2016, 10, 4083-4091.

[57] Highly compression-tolerant folded carbon nanotube/paper as solid-state supercapacitor electrode.

Song Y, Cheng X, Chen H, Han M, Chen X, Huang J, Su Z, Zhang H^*

Micro & Nano Letters 2016, 11, 586-590.

[56] Integrated self-charging power unit with flexible supercapacitor and triboelectric nanogenerator.

Song Y, Cheng X, Chen H, Huang J, Chen X, Han M, Su Z, Meng B, Song Z, Zhang H^*

Journal of Materials Chemistry A 2016, 4, 14298-14306.

[55] High performance triboelectric nanogenerators with aligned carbon nanotubes.

Wang H, Shi M, Zhu K, Su Z, Cheng X, Song Y, Chen X, Liao Z, Zhang M, Zhang H^*

Nanoscale 2016, 8, 18489-18494.

[54] Controlled fabrication of nano-scale wrinkle structure by fluorocarbon plasma on pre-strain membranes.

Cheng X, Miao L, Su Z, Chen H, Song Y, Chen X, Zhang H^*

Microsystems & Nanoengineering, 2016, 2, 16074.

[53] A three-step model of black silicon formation in deep reactive ion etching process.

Zhu FY, Wang C, Zhang X, Zhao X, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2015 28th IEEE International Conference on. 2015: 365-368.

[52] Triboelectrification based active sensor for polymer distinguishing.

Meng B, Cheng X, Han MD, Chen HT, Zhu FY, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2015 28th IEEE International Conference on. 2015: 102-105.

[51] Wafer-level fabrication of a triboelectric energy harvester.

Han M, Yu B, Su Z, Meng B, Cheng X, Zhang X, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2015 28th IEEE International Conference on. 2015: 1078-1081.

[50] A high-efficiency transparent electrification-based generator for harvesting droplet energy.

Cheng X, Meng B, Han M, Chen H, Zhang H^*

Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015 Transducers-2015 18th International Conference on. 2015: 62-65.

[49] A super-flexible and lightweight membrane for energy harvesting.

Han M, Yu B, Cheng X, Meng B, Zhang H^*

Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015 Transducers-2015 18th International Conference on. 2015: 55-58.

[48] Floor-based large-area triboelectric generator for active security monitoring.

Cheng X, Meng B, Han M, Shi M, Zhang H^*

Consumer Electronics (ICCE), 2015 IEEE International Conference on. 2015: 581-582.

[47] Fabrication and characterization of the functional parylene-C film with micro/nano hierarchical structures.

Zhang X, Su Z, Han M, Meng B, Zhu F, Zhang H^*

Microelectronic Engineering 2015, 141, 72-80.

[46] A cubic triboelectric generator as a self-powered orientation sensor.

Qiu G, Liu W, Han M, Cheng X, Meng B, Smitha AS, Zhao J, Zhang H^*

Science China Technological Sciences 2015, 58, 842-847.

[45] Formation mechanism of multi-functional black silicon based on optimized deep reactive ion etching technique with SF6/C4F8.

Zhu FY, Zhang X, Zhang H^*

Science China Technological Sciences 2015, 58, 381-389.

[44] Electrification based devices with encapsulated liquid for energy harvesting, multifunctional sensing, and self-powered visualized detection.

Han M, Yu B, Qiu G, Chen H, Su Z, Shi M, Meng B, Cheng X, Zhang H^*

Journal of Materials Chemistry A 2015, 3, 7382-7388.

[43] High performance triboelectric nanogenerators based on large-scale mass-fabrication technologies.

Zhang X-S, Han M-D, Meng B, Zhang H^*

Nano Energy 2015, 11, 304-322.

[42] Wearable electrode-free triboelectric generator for harvesting biomechanical energy.

Cheng X, Meng B, Zhang X, Han M, Su Z, Zhang H^*

Nano Energy 2015, 12, 19-25.

[41] A flexible and implantable piezoelectric generator harvesting energy from the pulsation of ascending aorta: in vitro and in vivo studies.

Zhang H, Zhang X, Cheng X, Liu Y, Han M, Xue X, Wang S, Yang F, Smitha AS, Zhang H^*

Nano Energy 2015, 12, 296-304.

[40] Roll‐to‐roll green transfer of CVD graphene onto plastic for a transparent and flexible triboelectric nanogenerator.

Chandrashekar BN, Deng B, Smitha AS, Chen Y, Tan C, Zhang H, Peng H^*, Liu Z^*

Advanced Materials 2015, 27, 5210-5216.

[39] Low frequency wide bandwidth MEMS energy harvester based on spiral-shaped PVDF cantilever.

Liu W, Han M, Meng B, Sun X, Huang X, Zhang H^*

Science China Technological Sciences 2014, 57, 1068-1072.

[38] Analysis of an in-plane electromagnetic energy harvester with integrated magnet array.

Han M, Li Z, Sun X, Zhang H^*

Sensors and Actuators A: Physical 2014, 219, 38-46.

[37] A cubic electromagnetic harvester that convert vibration energy from all directions.

Han M, Qiu G, Liu W, Meng B, Zhang X, Zhang H^*

Review of Scientific Instruments 2014, 85, 076109.

[36] Parylene-based 3D high performance folded multilayer inductors for wireless power transmission in implanted applications.

Sun X, Zheng Y, Peng X, Li X, Zhang H^*

Sensors and Actuators A: Physical 2014, 208, 141-151.

[35] Switchable wetting and flexible SiC thin film with nanostructures for microfluidic surface-enhanced Raman scattering sensors.

Zhang X, Meng B, Zhu F, Tang W, Zhang H^*

Sensors and Actuators A: Physical 2014, 208, 166-173.

[34] A 3-D Stacked high-Q PI-based MEMS inductor for wireless power transmission system in bio-implanted applications.

Sun X, Peng X, Zheng Y, Li X, Zhang H^*

Journal of Microelectromechanical Systems 2014, 23, 888-898.

[33] Design and fabrication of integrated magnetic MEMS energy harvester for low frequency applications.

Han M, Yuan Q, Sun X, Zhang H^*

Journal of Microelectromechanical Systems 2014, 23, 204-212.

[32] Single-friction-surface triboelectric generator with human body conduit.

Meng B, Cheng X, Zhang X, Han M, Liu W, Zhang H^*

Applied Physics Letters 2014, 104, 103904.

[31] 3D nanostructure reconstruction based on the SEM imaging principle, and applications.

Zhu F, Wang Q, Zhang X, Hu W, Zhao X, Zhang H^*

Nanotechnology, 2014, 25, 185705.

[30] Magnetic-assisted triboelectric nanogenerators as self-powered visualized omnidirectional tilt sensing system.

Han M, Zhang X, Sun X, Meng B, Liu W, Zhang H^*

Scientific reports 2014, 4, 4811.

[29] An unmovable single-layer triboloelectric generator driven by sliding friction.

Liu W, Han M, Sun X, Meng B, Zhang X, Zhang H^*

Nano energy 2014, 9, 401-407.

[28] High-performance triboelectric nanogenerator with enhanced energy density based on single-step fluorocarbon plasma treatment.

Zhang X, Han M, Wang R, Meng B, Zhu F, Sun X, Hu W, Wang W, Li Z, Zhang H^*

Nano Energy 2014, 4, 123-131.

[27] A high performance triboelectric generator for harvesting low frequency ambient vibration energy.

Meng B, Tang W, Zhang X, Han M, Sun X, Liu W, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2014 IEEE 27th International Conference on. 2014: 346-349.

[26] Springless cubic harvester for converting three dimensional vibration energy.

Han M, Liu W, Meng B, Zhang X, Sun X, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2014 IEEE 27th International Conference on. 2014: 425-428.

[25] Superhydrophobic micro/nano dual-scale structures.

Zhang X, Di Q, Zhu F, Sun G, Zhang H^*

Journal of nanoscience and nanotechnology 2013, 13, 1539-1542.

[24] Flexible parylene-based folded inductors with magnetic core.

Zheng Y, Sun X, Li X, Zhang H^*

Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015 Transducers-2013 17th International Conference on. 2013: 2261-2264.

[23] A novel MEMS electromagnetic energy harvester with series coils.

Li Z, Han M, Zhang H^*

Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015 Transducers-2013 17th International Conference on. 2013: 2245-2248.

[22] Switchable wetting & flexible SiC thin film with nanostructures.

Zhang X, Meng B, Zhu F, Tang W, Zhang H^*

Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015 Transducers-2013 17th International Conference on. 2013: 230-233.

[21] Stacked flexible parylene-based 3D inductors with Ni 80 Fe 20 core for wireless power transmission system.

Sun X, Zheng Y, Li Z, Li X, Zhang H^*

Micro Electro Mechanical Systems (MEMS), 2013 IEEE 26th International Conference on. 2013: 849-852.

[20] Investigation and characterization of an arc-shaped piezoelectric generator.

Han M, Liu W, Zhang X, Meng B, Zhang H^*

Science China Technological Sciences 2013, 56, 2636-2641.

[19] r-Shaped hybrid nanogenerator with enhanced piezoelectricity.

Han M¹, Zhang X¹, Meng B, Liu W, Tang W, Sun X, Wang W, Zhang H^*

ACS nano 2013, 7, 8554-8560.

[18] Self-powered flexible printed circuit board with integrated triboelectric generator.

Meng B, Tang W, Zhang X, Han M, Liu W, Zhang H^*

Nano Energy 2013, 2, 1101-1106.

[17] A transparent single-friction-surface triboelectric generator and self-powered touch sensor.

Meng B, Tang W, Too Z, Zhang X, Han M, Liu W, Zhang H^*

Energy & Environmental Science 2013, 6, 3235-3240.

[16] Self-cleaning poly (dimethylsiloxane) film with functional micro/nano hierarchical structures.

Zhang X, Zhu F, Han M, Sun X, Peng X, Zhang H^*

Langmuir 2013, 29, 10769-10775.

[15] Microstructure and magnetic properties of micro NiFe alloy arrays for MEMS application.

Li Z, Sun X, Zheng Y, Zhang H^*

Journal of Micromechanics and Microengineering 2013, 23, 085013.

[14] Investigation of power generation based on stacked triboelectric nanogenerator.

Tang W, Meng B, Zhang H^*

Nano Energy 2013, 2, 1164-1171.

[13] Frequency-multiplication high-output triboelectric nanogenerator for sustainably powering biomedical microsystems.

Zhang X¹, Han M¹, Wang R, Zhu F, Li Z, Wang W, Zhang H^*

Nano letters 2013, 13, 1168-1172.

[12] 3D reconstruction and feature extraction for analysis of nahttps://ieeexplore.ieee.org/document/6627363nostructures by SEM imaging.

Zhu F, Wang Q, Zhang X, Hu W, Zhao X, Zhang H^*

Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS), 2015 Transducers-2013 17th International Conference on. 2013: 2700-2703.

[11] An optimized fabrication of high yield CMOS-compatible silicon carbide capacitive pressure sensors.

Meng B, Tang W, Wang Z, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2012 7th IEEE International Conference on. 2012: 721-724.

[10] Surface analysis and process optimization of black silicon.

Zhu F, Di Q, Zeng X, Zhang X, Zhao X, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2012 7th IEEE International Conference on. 2012: 567-570.

[9] Fabrication and simulation of a novel 3D flexible electromagnetic energy Generator.

Zhang S, Yuan Q, Han M, Zhang H^*

Digest Tech. Papers PowerMEMS 2012, 315-318.

[8] Formation and interaction of micro/nano multi-scale structures.

Zhang X, Zhu F, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2012 7th IEEE International Conference on. 2012: 445-448.

[6] Design and fabrication of flexible parylene-based inductors with electroplated NiFe magnetic core for wireless power transmission system.

Sun X, Zheng Y, Li Z, Yu M, Yuan Q, Li X, Zhang H^*

Nano/Micro Engineered and Molecular Systems (NEMS), 2012 7th IEEE International Conference on. 2012: 238-242.

[5] Investigation of silicon/glass anodic bonding with PECVD silicon carbide as the intermediate layer.

Tang W, Meng B, Su W, Zhang H^*

Journal of Micromechanics and Microengineering 2012, 22, 095011.

[4] Tunable wetting behavior of nanostructured poly (dimethylsiloxane) by plasma combination

treatments.

Peter N, Zhang X, Chu S, Zhu F, Seidel H, Zhang H^*

Applied Physics Letters 2012, 101, 221601.

[3] Fabrication and characterization of squama-shape micro/nano multi-scale silicon material.

Zhang X, Zhu F, Sun G, Zhang H^*

Science China Technological Sciences 2012, 55, 3395-3400.

[2] Magnetic energy coupling system based on micro-electro-mechanical system coils.

Li X, Yuan Q, Yang T, Liu J, Zhang H^*

Journal of Applied Physics 2012, 111, 07E734.

[1] Electrodeposition and characterization of CoNiMnP permanent magnet arrays for MEMS sensors and actuators.

Sun X¹, Yuan Q¹, Fang D, Zhang H^*

Sensors and Actuators A: Physical 2012, 188, 190-197.