2020
DOI: 10.1016/j.isci.2020.101848
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Network Topology Optimization of Triboelectric Nanogenerators for Effectively Harvesting Ocean Wave Energy

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Cited by 36 publications
(25 citation statements)
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“…As the inner oscillator reaches its highest or lowest position and creates a voltage owing to the charge separation, switches are closed and a pulse current driven by the voltage appears in the external circuit (Figure 10g,h). Such switch circuit results in swift charge transfer that no longer depends on mechanical contact-separation speed of electrodes, rising the peak current to 1.77 A and the instantaneous power to 313 W, at a load of 100 Ω (Figure 10i), which further enhances previous experimental results by Cheng et al [74]. Apart from that, the possible energy output per cycle is also increased, the principle of which was thoroughly discussed by Zi et al [21].…”
Section: Power Managementsupporting
confidence: 68%
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“…As the inner oscillator reaches its highest or lowest position and creates a voltage owing to the charge separation, switches are closed and a pulse current driven by the voltage appears in the external circuit (Figure 10g,h). Such switch circuit results in swift charge transfer that no longer depends on mechanical contact-separation speed of electrodes, rising the peak current to 1.77 A and the instantaneous power to 313 W, at a load of 100 Ω (Figure 10i), which further enhances previous experimental results by Cheng et al [74]. Apart from that, the possible energy output per cycle is also increased, the principle of which was thoroughly discussed by Zi et al [21].…”
Section: Power Managementsupporting
confidence: 68%
“…Liu et al put forward a study concerning four types of electrical networking topology [74]. The effect of wire resistance and output phase asynchrony of different units on the network output were analyzed and concluded to be crucial (Figure 9f).…”
Section: Networking Designsmentioning
confidence: 99%
“…Liu et al. [ 62 ] designed four topological structures as shown in Figure a. First, adjacent TENGs were directly connected, and all units were connected in parallel.…”
Section: Solid–solid Interface Tengs For Blue Energy Harvestingmentioning
confidence: 99%
“…In the second section, the basic working principle of TENGs is introduced, and the structure of solid‐solid interface TENG is classified in detail in section 3, including sphere structures, [ 42–46 ] bionic structures, [ 8,9,47–51 ] hybrid structures [ 52–57 ] and networks. [ 58–62 ] In the next section, the advantages of solid–liquid interface TENGs in the marine application are presented, such as lightweight, flexible configuration, [ 63–66 ] corrosion resistance and free from ambient humidity. [ 34,67,68 ] In Section 5, the current technologies to improve the performance of TENGs are introduced in detail, including material surface modification, [ 49,69–72 ] ion implantation, [ 47,58,73,74 ] and chemical doping.…”
Section: Introductionmentioning
confidence: 99%
“…Besides developing new energy storage technologies, a self-powered whisker with high sensitivity could be useful for robot motion perception. Motivated by these problems, TENG coupled with triboelectrification and electrostatic induction has been developed as an electromechanical energy conversion technology; such a device exhibits potential applications in energy harvesting and self-powered mechanical sensing [22][23][24][25][26][27][28]. Self-powered triboelectric sensors have shown responses to environmental stimulation without requiring an energy source [29,30], ultrahigh sensitivity to vocal intonations [31,32], energy harvesting from water waves [24], acceleration perception [25], and human motion in real time [33][34][35].…”
Section: Introductionmentioning
confidence: 99%