Strain-adjustable reflectivity of polyurethane nanofiber membrane for thermal management applications
Xin Li, Zhenmin Ding, Giuseppe Emanuele Lio, Jiupeng Zhao, Hongbo Xu,, Lorenzo Pattelli, Lei Pan, Yao Li

TL;DR
This paper presents a flexible polyurethane nanofiber membrane that can reversibly switch between radiative cooling and solar heating modes by stretching, enabling adaptive thermal management for sustainable building applications.
Contribution
The study introduces a stretchable, reversible, and solvent-free polyurethane nanofiber membrane with tunable optical reflectivity for dynamic thermal regulation.
Findings
Achieves 95.6% reflectance in cooling mode and 61.1% in heating mode.
Demonstrates a 10°C temperature drop in cooling mode.
Provides a scalable membrane with excellent durability and hydrophobicity.
Abstract
Passive radiative cooling technologies are highly attractive in pursuing sustainable development. However, current cooling materials are often static, which makes it difficult to cope with the varying needs of all-weather thermal comfort management. Herein, a strategy is designed to obtain flexible thermoplastic polyurethane nanofiber (Es-TPU) membranes via electrospinning, realizing reversible in-situ solvent-free switching between radiative cooling and solar heating through changes in its optical reflectivity by stretching. In its radiative cooling state (0% strain), the Es-TPU membrane shows a high and angular-independent reflectance of 95.6% in the 0.25-2.5 {\mu}m wavelength range and an infrared emissivity of 93.3% in the atmospheric transparency window (8-13 {\mu}m), reaching a temperature drop of 10 {\deg}C at midday, with a corresponding cooling power of 118.25 W/m2. The…
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.
