Details

Autor(en) / Beteiligte

• Rana, S M Sohel
• Rahman, M. Toyabur
• Sharma, S.
• Salauddin, M.
• Yoon, Sang Hyuk
• Park, Chani
• Maharjan, P.
• Bhatta, T.
• Park, Jae Yeong

Titel

Cation functionalized nylon composite nanofibrous mat as a highly positive friction layer for robust, high output triboelectric nanogenerators and self-powered sensors

Ist Teil von

• Nano energy, 2021-10, Vol.88, p.106300, Article 106300

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2021

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Triboelectric nanogenerators (TENGs) have proven to be potential candidates for low-frequency vibration mechanical energy harvesting, which utilize different electron affinities material. In this regard, strong electron-donating tendencies materials are highly required to improve the TENGs’ performance. Here, a poly(diallyldimethylammonium chloride) (poly-DADMAC)/nylon-11 composite nanofibrous mat is newly proposed as a highly positive triboelectric layer for boosting the TENGs’ performance. Through the dielectric modulation of the nylon-11 nanofiber achieved by incorporating cationic poly-DADMAC, the output performance of the TENG was significantly enhanced by the relative dielectric constant, which is attributed to the three-fold increase in the surface charge trapping capability of the composite materials. After the incorporation of poly-DADMAC, the mechanical strength of the developed composite materials was six times greater than that of pristine nylon-11. The fabricated TENG showed excellent power density (7.6 W/m2) and sustainable power generation for low-power electronic devices. The proposed TENG was successfully demonstrated as a self-powered pressure sensor with an ultra-high sensitivity of 1.01 V/KPa. Furthermore, the TENG was utilized as a self-powered motion sensor for monitoring real-time human motion, including slow walking, fast walking, jogging, slow running, fast running, and jumping. Finally, the TENG was adopted and demonstrated to successfully monitor human motion status using a smartphone web application in the Internet of Things (IoT). These results of this study are expected to provide guidance for the construction of high-performance TENGs and promote the development of self-sustainable portable or wearable electronics and self-powered sensors. [Display omitted] •A poly-DADMAC/nylon-11 composite nanofiber is newly developed for robust, high output triboelectric nanogenerators (TENGs).•The poly-DADMAC/nylon-11 composite shows excellent charge trapping capability, stability, and mechanical strength.•The fabricated TENGs exhibit excellent stability, durability (>86 k cycles), and extremely high-power density (7.8 W/m2).•The TENG was demonstrated as a self-powered pressure sensor with an ultra-high sensitivity of 1.01 V/KPa.•TENG is successfully proven as a self-powered human motion sensor and power source for various low-power electronic devices.