中文摘要：

综合 multilayered 摩擦电 nanogenerators (TENG ) 是一条有效途径解决单人赛分层的 TENG 为完成高产量力量密度引起的不够的精力问题。然而，很综合的 multilayered TENG 有相对大的体积。这里，综合摩擦电 nanogenerator (DI-TENG ) 基于春天钢盘子表现为的 double-induced-mode 为收获的周围的颤动精力的一台划算、简单、高效的设备。唯一的可堆迭的菱形结构，在弹簧，钢盘子骨骼充当并且作为电极，能提高输出性能并且最大化空格利用。有五的 DI-TENG 在 12 厘米物浥湥?景愠氠睯漠敶灲瑯湥楴污漠?的体积重复了单位??噭琠?捡楨癥??‰?敬畣慬?敤潳灲楴湯?硅数楲敭瑮污祬洠慥?敲?楤晦牥湥楴污眠牯?畦据楴湯愠??畦据楴湯漠?整灭牥瑡牵?桳睯?敤潳灲楴湯瀠慥獫愠??愠摮????桴楥?汥'虪罐嫖蹫u潲数瑲敩?桳睯朠敲瑡瀠瑯湥楴污映牯爠慥?楴敭?湩猠瑩?潭楮潴楲杮漠?潭敬畣慬?摡潳灲楴湯愠摮搠獥牯瑰潩??瑬潨杵?桴?潭敬畣慬?摡潳灲楴湯椭摮'讚涌畺{?湩琠敨攠敬瑣潲楮?潷歲映湵瑣潩?獩瘠牥?敳獮瑩癩?椠?潤獥渠瑯栠癡?湡?...?睯癥牥?桴?整灭牥瑡牵?敤数摮湥祣漠?桴?摡潳

英文摘要：

Integrated multilayered triboelectric nanogenerators （TENGs） are an efficient approach to solve the insufficient energy problem caused by a single-layered TENG for achieving high output power density. However, most integrated multilayered TENGs have a relatively large volume. Here, a double-induced-mode integrated triboelectric nanogenerator （DI-TENG） based on spring steel plates is presented as a cost-effective, simple, and high-performance device for ambient vibration energy harvesting. The unique stackable rhombus structure, in which spring steel plates act both as skeletons and as electrodes, can enhance the output performance and maximize space utilization. The DI-TENG with five repeated units in a volume of 12 cm × 5 cm × 0.4 cm can generate a short-circuit current of 51 μA and can transfer charges of 1.25 μC in a half period. The contrast experiment is conducted systematically and the results have proved that the DI-TENG has a great advantage over the single-induced-mode TENG （SI-TENG） with only one side of a friction layer on its electrode. Besides, the DI-TENG can easily power a commercial calculator and can be used as a door switch sensor.