Haoyu Wang's research while affiliated with Donghua University and other places
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Publications (3)
There is a growing need for protective instruments that can be used in extreme environments, including those encountered during exoplanet exploration, anti-terrorism activities, and in chemical plants. These instruments should have the ability to detect external threats visually and monitor internal physiological signals in real time for maximum sa...
Fibers, originating from nature and mastered by human, have woven their way throughout the entire history of human civilization. Recent developments in semiconducting polymer materials have further endowed fibers and textiles with various electronic functions, which are attractive in applications such as information interfacing, personalized medici...
Conducting polymers have been widely employed for wearable sensing devices. Their unique compliance and flexibility endow higher tolerance to signal aberrations caused by mechanical mismatch compared to the rigid counterparts....
Citations
... Therefore, enhancing TC of existing polymers, and developing new polymers with high TC for effective heat dissipation or thermal management, are the keys to their wide applications [15]. Specifically, polymer fibers can be applied to organic electronics [16], optoelectronics [16][17][18] and sensing [19][20][21]. Polymer thin films have potential biomedical applications, such as permselective membranes [22][23][24], protective coatings [25,26] and electrochemical biosensors [27][28][29]. ...
![[object Object]](https://i1.rgstatic.net/ii/profile.image/11431281184892580-1693468660055_Q64/Yueheng-Zhong.jpg)
... As expected, almost the same new bands were found in Fig. S1a (PET), S1c (Wool), and S1e (Cotton), which proved that the PDA and PEDOT were both coated with all of the raw fabrics. Compared to raw PLF and PDA@PLF, the Raman spectra of PEDOT@PLF and PEDOT/PDA@PLF present a novel band at 1432 cm − 1 , ascribed to the C α = C β (Fig. 2b) [30][31]. The same results were obtained from Fig. S1b (PET), S1d (Wool), and S1f (Cotton). ...
