Efficient energy harvesting using triboelectric nanogenerators (TENGs): Integration with technologies, wearable applications, and future trends

Renewable and Sustainable Energy Reviews, Journal Year: 2025, Volume and Issue: 216, P. 115662 - 115662

Published: April 2, 2025

Language: Английский

Magnetically-Driven Reconfigurable Cilium Array with Tunable Wettability for Dynamic Display and Controllable Microreactio

Published: March 28, 2025

Article Magnetically-Driven Reconfigurable Cilium Array with Tunable Wettability for Dynamic Display and Controllable Microreactio Zijing Quan 1, Yuhan Zhang 1,*, You Pan Zhongyi Yang Chen Fawei Rui Letian Li Bo 1,2,*, Shichao Niu 1,2,3,*, Zhiwu Han 1,2,3, Luquan Ren 1,2,3 1 Key Laboratory of Bionic Engineering (Ministry Education), Jilin University, Changchun 130022, China 2 National Automotive Chassis Integration Bionics, 3 Institute Structured Architected Materials, Liaoning Academy Shenyang 110167, * Correspondence: [email protected] (Y.Z.); [email protected] (B.L.); [email protected] (S.N.) Received: March 2025; Revised: 17 Accepted: 25 Published: 28 2025 Abstract: Efficient droplet transport plays an important role in many fields such as liquid collection, microfluidic management, reaction control. However, it remains a key challenge to achieve fast precise motion control along predetermined path. Herein, magnetically driven cilium array (MDCA) was developed by simple one-step spraying method. The MDCA exhibits both upright prostrated states under programmable magnetic field, achieving in-situ pinning driving the droplets, respectively. In particular, modified silicone oil can not only be used manipulation on spatio-temporal scale (S-shaped trajectory transport, selective target velocity control) but also provides self-enclosed space fusion chemical microreactions, allowing fine-tuning parameters isolation from external contamination. Based theoretical analysis applied development dynamic digital displays microreactors inspiration environmental monitoring, drug delivery, energy purification.

Language: Английский

Advanced Ceramics with Extraordinary Wettability: From Fundamental Research to Industrial Engineering

Advanced Engineering Materials, Journal Year: 2025, Volume and Issue: unknown

Published: May 13, 2025

Supported by the widespread adoption of bionic concepts in interfacial science, extraordinary wettability represented superwettability has gained enormous achievements during past decades and remains a critical research hot point both fundamental science industrial engineering. Although many types surfaces with are fabricated organics through this approach, some intrinsic drawbacks organic material emerging obstructing further applications. Facing dilemma between engineering, utilizing advanced inorganic ceramics is deemed as an alternative way to construct which can fulfill other demands applications simultaneously, especially given high mechanical robustness remarkable high‐temperature stability material. Thus, article provides concise perspective on relationship well recent developments regarding inert reactive wetting systems serve guidance for future design field.

Language: Английский