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14 Friction 7(1): 2–17 (2019) of Advanced Aerospace Technology (USCAST2016‐13). The authors gratefully acknowledge Tianlu Wang (PhD, ETH Zurich), Peng Zhang (PhD, UCLA), and Ning Yu (PhD, UCLA) for their useful comments and proofreading. Open Access: The articles published in this journal are distributed under the terms of the Creative Commons Attribution 4.0 International License (http:// creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. References [1] Lacks D J, Sankaran R M. Contact electrification of insulating materials. J Phys Appl Phys 44: 453001 (2011) [2] McCarty L S, Whitesides G M. Electrostatic Charging due to separation of ions at interfaces: Contact electrification of ionic electrets. Angew Chem.Int Ed 47: 2188–2207 (2008) [3] Shafeek S, Luo J. Theoretical and numerical analysis of triboelectric nanogenerators for self-powered sensors. In 2016 5th International Conference on Electronic Devices, Systems and Applications (ICEDSA), 2016: 1–4. [4] Zhu G, Peng B, Chen J, Jing Q, Wang Z L. Triboelectric nanogenerators as a new energy technology: From fundamentals, devices, to applications. Nano Energy 14: 126–138 (2015) [5] Wang Z L. Triboelectric nanogenerators as new energy technology and self-powered sensors─Principles, problems and perspectives. Faraday Discuss 176: 447–458 (2015) [6] Camara C G, Escobar J V, Hird J R, Putterman S J. Correlation between nanosecond X-ray flashes and stick– slip friction in peeling tape. Nature 455: 1089 (2008) [7] daSilvaETSG,SanthiagoM.,deSouzaFR,ColtroWK T, Kubota L T. Triboelectric effect as a new strategy for sealing and controlling the flow in paper-based devices. Lab Chip 15: 1651–1655 (2015) [8] YeUY,KimB-J,RyuJ,LeeJY,BaikJM,HongK. Electrospun ion gel nanofibers for flexible triboelectric nanogenerator: electrochemical effect on output power. Nanoscale 7: 16189–16194 (2015) [9] Kok J F, Renno N O. Electrostatics in wind-blown sand. Phys Rev Lett 100: 014501 (2008) [10] Houghton I M P, Aplin K L, Nicoll K A. Triboelectric charging of volcanic ash from the Grímsvötn. Phys Rev Lett 111: 118501 (2013) [11] Zhang L, Hou J, Bi X. Triboelectric charging behavior of wood particles during pellet handling processes. J Loss Prev Process Ind 26: 1328–1334 (2013) [12] Stöcker H, Rühl M, Heinrich A, Mehner E, Meyer D C. Generation of hard X-ray radiation using the triboelectric effect by peeling adhesive tape. J Electrost 71: 905–909 (2013) [13] Lu L, Yu L. Understanding low bandgap polymer PTB7 and optimizing polymer solar cells based on it. Adv Mater 26: 4413–4430 (2014) [14] Zhang Y, Shao T. Effect of contact deformation on contact electrification: A first-principles calculation. J Phys Appl Phys 46: 235304 (2013) [15] Lin S, Shao T. Bipolar charge transfer induced by water: Experimental and first-principles studies. Phys Chem Chem Phys 19: 29418–29423 (2017) [16] Niu S, Wang Z L. Theoretical systems of triboelectric nano- generators. Nano Energy 14: 161–192 (2015) [17] Dhakar L. Study of effect of topography on triboelectric nanogenerator performance using patterned arrays. In Triboelectric Devices for Power Generation and Self-Powered Sensing Applications. Springer, Singapore, 2017: 39–66. [18] Kornfeld M I. Frictional electrification. J Phys Appl Phys 9: 1183 (1976) [19] Labadz A F, Lowell J. Contact charge density and penetration depth. J Electrost 26: 251–260 (1991) [20] Sow M, Lacks D J, Sankaran R M. Effects of material strain on triboelectric charging: Influence of material properties. J Electrost 71: 396–399 (2013) [21] Thomas S W, Vella S J, Kaufman G K, Whitesides G M. Patterns of electrostatic charge and discharge in contact electrification. Angew Chem 120: 6756–6758 (2008) [22] Hinchet R, Seung W, Kim S-W. Recent progress on flexible triboelectric nanogenerators for selfpowered electronics. ChemSusChem 8: 2327–2344 (2015) [23] Kim S, Ha J, Kim J-B. Theoretical study on the dielectric effect on triboelectric nanogenerators. Integr Ferroelectr 176: 283–290 (2016) [24] Sternovsky Z, Horányi M, Robertson S. Charging of dust particles on surfaces. J Vac Sci Technol Vac Surf Films 19: 2533–2541 (2001) [25] Bera B. Literature review on triboelectric nanogenerator. Imp J Interdiscip Res 2: 1263-1271 (2016) [26] Zhang Y, Shao T. Contact electrification between polymers and steel. J Electrost 71: 862–866 (2013) | https://mc03.manuscriptcentral.com/frictionPDF Image | Fundamental theories basic principles of triboelectric effect
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