References
- Cho KH, Shin DJ, Lee CS, et al. Impedance matching techniques of multi-layered PZT ceramics for piezoelectric energy harvesters. Electron Mater Lett. 2019;15:437–443.
- Yoon S, Kim J, Ji JH, et al. Mn DOPED PbZrTiO 3 thick films for the renewable piezoelectric energy harvesters for mobile communications. Electron Mater Lett. 2019;15:421–427.
- Zhang K, Lee TH, Jang HW, et al. A hybrid energy storage mechanism of zinc hexacyanocobaltate-based metal-organic framework endowing stationary and high-performance lithium-ion storage. Electron Mater Lett. 2019;15:444–453.
- Kim GY, Peddigari M, Lim KW, et al. Effect of thickness ratio in piezoelectric/elastic cantilever structure on the piezoelectric energy harvesting performance. Electron Mater Lett. 2019;15:61–69.
- Wang X, Wang ZL, Yang Y. Hybridized nanogenerator for simultaneously scavenging mechanical and thermal energies by electromagnetic-triboelectric-thermoelectric effects. Nano Energy. 2016;26:164–171.
- Cheng TH, Gao Q, Wang ZL. The current development and future outlook of triboelectric nanogenerators: a survey of literature. Adv Mater Technol. 2019;1800588. DOI:https://doi.org/10.1002/admt.201800588
- Lin CC, Chuang YJ, Sun WH, et al. Ultrathin single-crystalline silicon solar cells for mechanically flexible and optimal surface morphology designs. Microelectron Eng. 2015;145:128–132.
- Zhang M, Jie Y, Cao X, et al. Robust design of unearthed single-electrode TENG from three-dimensionally hybridized copper/polydimethylsiloxane film. Nano Energy. 2016;30:155–161.
- Wen Z, Yeh MH, Guo H, et al. Self-powered textile for wearable electronics by hybridizing fiber-shaped nanogenerators, solar cells, and supercapacitors. Sci Adv. 2016;2:e1600097.
- Jie Y, Jiang Q, Zhang Y, et al. A structural bionic design: from electric organs to systematic triboelectric generators. Nano Energy. 2016;27:554–560.
- Guo H, Pu X, Chen J, et al. A highly sensitive, self-powered triboelectric auditory sensor for social robotics and hearing aids. Sci Rob. 2018;3:2516.
- Zhang SL, Xu MY, Zhang CL, et al. Rationally designed sea snake structure based triboelectric nanogenerators for effectively and efficiently harvesting ocean wave energy with minimized water screening effect. Nano Energy. 2018;48:421–429.
- Wen J, Chen B, Tang W, et al. Harsh-environmental-resistant triboelectric nanogenerator and its applications in autodrive safety warning. Adv Energy Mater. 2018;8:1801898.
- Lee JH, Hinchet R, Kim SK, et al. Shape memory polymer-based self-healing triboelectric nanogenerator. Energy Environ Sci. 2015;8:3605–3613.
- Dong K, Wu Z, Deng J, et al. A stretchable yarn embedded triboelectric nanogenerator as electronic skin for biomechanical energy harvesting and multifunctional pressure sensing. Adv Mater. 2018;30:1804944.
- Zhong W, Xu L, Yang XD, et al. Open-book-like triboelectric nanogenerators based on low-frequency roll–swing oscillators for wave energy harvesting. Nanoscale. 2019;11:7199–7208.
- Lin ZH, Yang Y, Wu JM, et al. BaTiO3 nanotubes-based flexible and transparent nanogenerators. J Phys Chem Lett. 2012;3:3599–3604.
- Lin Z, Wu Z, Zhang B, et al. Smart insole for multifunctional gait monitoring. Adv Mater Technol. 2019;4:1800360.
- Yang HM, Wang MF, Deng MM, et al. A full-packaged rolling triboelectric-electromagnetic hybrid nanogenerator for energy harvesting and building up self-powered wireless systems. Nano Energy. 2019;56:300–306.
- Liu GL, Xu WN, Xia XN, et al. Newton’s cradle motion-like triboelectric nanogenerator to enhance energy recycle efficiency by utilizing elastic deformation?. J Mater Chem A. 2015;3:21133–21139.
- Zou HY, Zhang Y, Guo LT, et al. Quantifying the triboelectric series. Nat Commun. 2019;10:1427.
- Guo WX, Li XY, Chen MX, et al. Electrochemical cathodic protection powered by triboelectric nanogenerator. Adv Funct Mater. 2014;24:6691–6699.
- Chandrasekaran S, Bowen C, Roscow J. Micro-scale to nano-scale generators for energy harvesting: self powered piezoelectric, triboelectric and hybrid devices. Phys Rep. 2019;792:1–33.
- Bu L, Chen Z, Chen Z, et al. Impact induced compound method for triboelectric-piezoelectric hybrid nanogenerators to achieve Watt level average power in low frequency rotations. Nano Energy. 2020;70:104500.
- Zhang XS, Han MD, Meng B, et al. High performance triboelectric nanogenerators based on large-scale mass-fabrication technologies. Nano Energy. 2015;11:304–322.
- Tang W, Tian JJ, Zheng Q, et al. Implantable self-powered low-level laser cure system for mouse embryonic osteoblasts’ proliferation and differentiation. ACS Nano. 2015;9:7867.