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成果及论文

以（共）第一/通讯作者身份在Materials Toady, Microsystems and Nanoengineering，Nano-Micro Letters, Applied Materials Toady，JMCA，ACS Applied Materials & Interface，Nanoscale, Science China Mater., Mater.&Design, IEEE TED, IEEE IOT等国际TOP期刊上发表SCI论文37篇，被引2300余次（google学术，H指数25)，封面论文3篇。

#共一作者；*通讯作者；仅列出本人（共）第一/通讯作者论文

Google Citations：2080 h-index: 24

2022年

[1] Yuan Y, Chen H, Xu H, Jin Y, Chen G, Zheng W, Wang W*, Wang Y, Gao L*. Highly Sensitive and Wearable Bionic Piezoelectric Sensor for Human Respiratory Monitoring[J]. Sensors and Actuators A: Physical, 2022: 113818.

[2] Xu H, Zheng W, Yuan Y, Wang W. *, Lu Y. *, Gao L*. Flexible Gas-permeable and Resilient Bowtie Antenna for Tensile-strain and Temperature Sensing[J]. IEEE Internet of Things Journal, 2022.

[3] Xu H, Zheng W, Wang Y, Xu D, Zhao N, Qin Y, Yuang Y, Fan Z, Nan X, Duan Q, Wang W. *, Lu Y. *, Gao L*. Flexible tensile strain-pressure sensor with an off-axis deformation-insensitivity[J]. Nano Energy, 2022: 107384.

[4] Gao L*, Zhao N, Xu H, Hu X, Xu D, Wang W*. Flexible Pressure Sensor With Wide Linear Sensing Range for Human-Machine Interaction[J]. IEEE Transactions on Electron Devices, 2022.

[5] Qin Y, Xu H, Li S, Wang W, Gao L*. Dual-Mode Flexible Capacitive Sensor for Proximity-Tactile Interface and Wireless Perception[J]. IEEE Sensors Journal, 2022, 22(11): 10446-10453.

[6] Xu D, Duan L, Yan S, Wang Y, Cao K*, Wang W*, Xu H, Wang Y, Hu L, Gao L*. Monolayer MoS2-Based Flexible and Highly Sensitive Pressure Sensor with Wide Sensing Range[J]. Micromachines, 2022, 13(5): 660.

2021年

[7] Xu H.#, Gao L.#,*, Zhao H.,…Wang W.*, Lu Y.*, Stretchable and Anti-Impact Iontronic Pressure Sensor with Ultrabroad-linear Range for Biophysical Monitoring and Deep Learning-aided Knee-Rehabilitation. Microsystems & Nanoengineering,2021,7(1),1-11.

[8] Moses O.Adetunji#, Gao L.#, Zhao H.#,*, Wang Z, Adam Mukhtar L., Sun Z., , ... & Lu Y.*, Yin Z.*, Yu X., 2D Materials Inks Toward Smart Flexible Electronics. Materials Today, 2021 50: 116-148.

[9] Li X., Wang W., Wu L., Zhao H., Wang M., Wang, Y., ... & Gao L.*. Wearable, Self-cleaning, Wireless Integrated Tactile Sensory System with Superior Sensitivity. Sensors and Actuators A: Physical, 2021, 113027.

[10] Gao L.*, Wang M., Wang W., Xu H., Wang Y., Zhao H., ... & Li L*. Highly Sensitive Pseudocapacitive Iontronic Pressure Sensor with Broad Sensing Range. Nano-Micro letters, 2021, 13(1), 1-14.

[11] Xiao R., Li X., Jia H., Surjadi J. U., Li J., Lin W., Gao L.*, & Lu Y.* 3D printing of dual phase-strengthened microlattices for lightweight micro aerial vehicles. Materials & Design, 2021，206, 109767.

[12] Xiao R., Ding M., Wang Y., Gao L.*, Fan R., & Lu Y*. Stereolithography (SLA) 3D printing of carbon fiber-graphene oxide (CF-GO) reinforced polymer lattices. Nanotechnology, 2021, 32(23), 235702.

[13] Wang Y., Li X., Fan S., Feng X., Cao K., Ge Q., Gao L.* & Lu Y*. Three-Dimensional Stretchable Microelectronics by Projection Microstereolithography (PμSL). ACS Applied Materials & Interfaces, 2021, 13(7), 8901-8908.

[14] Gao L.*^,#, Han Y.#, Surjadi J. U., Cao K., Zhou W., Xu H., ... & Espinosa H. D*. Magnetically induced micropillar arrays for an ultrasensitive flexible sensor with a wireless recharging system. Science China Materials, 2021，1-12.

2020年

[15] Wang Y.，Zhou W.，Cao K.，Hu X.，Gao L.* & Lu Y.* Architectured graphene and its composites: manufacturing and structural applications. Composites Part A: Applied Science and Manufacturing, 2020, 106177.

[16] Xu H.#，Gao L.#,*，Wang Y.，Cao K.，Hu X.，Wang L., ... & Lu Y*. Flexible Waterproof Piezoresistive Pressure Sensors with Wide Linear Working Range Based on Conductive Fabrics. Nano-Micro Letters, 2020, 12(1), 1-13.

[17] Xiao R.，Feng X.，Fan R.，Chen S.，Song J.，Gao L.* & Lu Y. *. 3D printing of titanium-coated gradient composite lattices for lightweight mandibular prosthesis. Composites Part B: Engineering, 2020, 108057.

[18] Gao L.*，Cao K.，Hu X.，Xiao R.，Gan B.，Wang W.*，Lu Y*. Nano Electromechanical Approach for Flexible Piezoresistive Sensor. Applied Materials Today，2020, 18, 100475.

[19] Cao K.#, Yang H.#, Gao L.#, Han Y., Feng J., Yang H., ... & Lu Y.* In situ mechanical characterization of silver nanowire/graphene hybrids films for flexible electronics. International Journal of Smart and Nano Materials, 2020, 11(3), 265-276.

2019年

[20] Xue J.#，Gao L.# ,*，Hu X.#，Cao K.，Zhou W.，Wang W.*，Lu Y*. Stereolithographic 3D Printing-Based Hierarchically Cellular Lattices for High-Performance Quasi-Solid Supercapacitor. Nano-Micro Letters, 2019, 11 (1), 46.

[21] Sang X.，Zhao M.，Liu M.，Zhu Y.，Gao L.*，Wang W.*Molecular Dynamics Study on Explosive Boiling of Ultra-Thin Liquid over Solid Substrate: Considering Interface Wettability of Argon/MoS2. Molecular Simulation, 2019, 45 (13), 996-1003.

[22] Wang Y.#，Gao L.#，Fan S.，Zhou W.，Li X.，Lu Y*. 3D Printed Micro-Mechanical Device (MMD) for in Situ Tensile Testing of Micro/Nanowires. Extreme Mechanics Letters, 2019, 33, 100575.

[23] Gao L.*，Fan R.，Xiao R.，Cao K.，Li P.，Wang W.*，Lu Y.* NiO-Bridged MnCo-Hydroxides for Flexible High-Performance Fiber-Shaped Energy Storage Device. Applied Surface Science, 2019, 475, 1058-1064.

[24] Gao L.*，Fan R.，Zhou W.，Hu X.，Cao K.，Wang W.*，Lu Y.* Biomimetic and Radially Symmetric Graphene Aerogel for Flexible Electronics. Advanced Electronic Materials, 2019, 5 (12), 1-11.

[25] Gao L.*，Wang Y.，Hu X.，Zhou W.，Cao K.，Wang Y.，Wang W.*，Lu Y*. Cellular Carbon-Film-Based Flexible Sensor and Waterproof Supercapacitors. ACS Applied Materials & Interfaces, 2019, 11 (29), 26288-26297.

2018年

[26] Song J.#，Gao L.#，Tao X.*，Li L. Ultra-Flexible and Large-Area Textile-Based Triboelectric Nanogenerators with a Sandpaper-Induced Surface Microstructure. Materials, 2018, 11 (11), 2120.

[27] Gao L.，Song, J.，Surjadi, J. U.，Cao K.，Han Y.，Sun D.，Tao X.，Lu Y*. Graphene-Bridged Multifunctional Flexible Fiber Supercapacitor with High Energy Density. ACS Applied Materials & Interfaces, 2018, 10 (34), 28597-28607.

[28] Surjadi J.U.#，Gao L.#，Cao K.，Fan R.，Lu Y*. Mechanical Enhancement of Core-Shell Microlattices through High-Entropy Alloy Coating. Scientific Reports, 2018, 8 (1), 1–10.

[29] Gao L.，Zhang H.，Surjadi J. U.，Li P.，Han Y.，Sun D.，Lu Y*. Mechanically Stable Ternary Heterogeneous Electrodes for Energy Storage and Conversion. Nanoscale, 2018, 10 (5), 2613–2622.

[30] Song J.#，Gao L.#，Cao K.，Zhang H.，Xu S.，Jiang C.，Surjadi J. U.，Xu Y.，Lu Y*. Metal-Coated Hybrid Meso-Lattice Composites and Their Mechanical Characterizations. Composite Structures, 2018, 203, 750–763.

[31] Gao L.#，Song J.#，Jiao Z.，Liao W.，Luan J.，Surjadi J. U.，Li J.，Zhang H.，Sun D.，Liu, C. T，Lu Y.*. High-Entropy Alloy (HEA)-Coated Nanolattice Structures and Their Mechanical Properties. Advanced Engineering Materials, 2018, 20 (1), 1700625.

2018年以前

[32] Gao L.，Cao K.，Zhang H.，Li P.，Song J.，Surjadi J. U.，Li Y.，Sun D.，Lu Y*. Rationally Designed Nickel Oxide Ravines@iron Cobalt-Hydroxides with Largely Enhanced Capacitive Performance for Asymmetric Supercapacitors. Journal of Materials Chemistry A, 2017, 5 (32), 16944–16952.

[33] Gao L.，Liao W.，Zhang H.，Surjadi J. U.，Sun D.，Lu Y*. Microstructure, Mechanical and Corrosion Behaviors of CoCrFeNiAl 0.3 High Entropy Alloy (HEA) Films. Coatings, 2017, 7 (10), 1–7.

[34] Gao L.，Surjadi J. U.，Cao K.，Zhang H.，Li P.，Xu S.，Jiang C.，Song J.，Sun D.，Lu Y*. Flexible Fiber-Shaped Supercapacitor Based on Nickel-Cobalt Double Hydroxide and Pen Ink Electrodes on Metallized Carbon Fiber. ACS Applied Materials & Interfaces, 2017, 9 (6), 5409–5418.

[35] Gao L.，Xu S., Xue C.，Hai Z.，Sun D., & Lu Y.*. Self-assembly of hierarchical 3D starfish-like Co3O4 nanowire bundles on nickel foam for high-performance supercapacitor. Journal of Nanoparticle Research, 2016, 18(5), 112.

[36] Gao L.，Diwu J.，Zhang Q.，Xu H.，Chou X.，Tang J.& Xue C.*. A green and facile synthesis of carbon-incorporated Co3O4 nanoparticles and their photocatalytic activity for hydrogen evolution. Journal of Nanomaterials, 2015.

[37] Gao L., Zhang Q., Li J., Feng R., Xu H., & Xue C.*. Adsorption of methyl orange on magnetically separable mesoporous titania nanocomposite. Chinese Journal of Chemical Engineering, 2014, 22(10), 1168-1173.