Simultaneous Realization of Efficient Solar Evaporation and Electricity Collection Through Dual Regulation of Chemical Composition and Pore Channels
Xi Gong(Qilu University of Technology), Wenxia Liu(Qilu University of Technology), Feihong Hu(Nantong University), Jiebing Tang(University of Jinan), Zhen Li(Shandong Provincial Hospital), Huili Wang(Qilu University of Technology), Zhaoping Song(Qilu University of Technology)
Cited by 1
Related Papers
Clinical outcomes of the severe acute respiratory syndrome coronavirus 2 Omicron and Delta variant: systematic review and meta-analysis of 33 studies covering 6 037 144 coronavirus disease 2019–positive patients
|Clinical Microbiology and Infection|2023|88
Highly stretchable, self-healing, antibacterial, conductive, and amylopectin-enhanced hydrogels with gallium droplets loading as strain sensors
|Carbohydrate Polymers|2024|84
Lignosulfonate sodium and ionic liquid synergistically promote tough hydrogels for intelligent wearable human-machine interaction
|International Journal of Biological Macromolecules|2023|80
Antibacterial conductive hydrogels with freeze-directed microstructures reinforced by polyaniline-encapsulated bacterial cellulose for flexible sensors
|Chemical Engineering Journal|2025|75
Achieving excellent thermal transfer in highly light absorbing conical aerogel for simultaneous passive cooling and solar steam generation
|Chemical Engineering Journal|2021|64