Energy-Saving Smart Windows with HPC/PAA Hybrid Hydrogels as Thermochromic Materials

Hydroxypropyl cellulose (HPC) hydrogels exhibit thermal-responsive transparency change due to their temperature-sensitive miscible-immiscible transitions, making them promising thermochromic materials for fabricating energy-saving smart windows. However, their transition temperatures, named lower critical solution temperature (LCST), are too high for building window applications, and it is also challenging to reduce LCST to comfortable room temperature range (e.g., 26-28 degrees C) in hot seasons. In this work, we report smart windows prepared using poly(acrylic acid) (PAA)-modified HPC hydrogels and demonstrate that the LCST of the resulting HPC/PAA hybrid hydrogels can be effectively tuned by solution pH, from 44 to 10 degrees C with decreasing pH from 6.0 to 1.0. At pH 2.5, an optimized LCST at 26.5 degrees C has been achieved. The sandwich-structured smart window, composed of two glass panes and an optimized HPC/PAA hydrogel in between, shows a high visible-light transmittance (T-lum = 90.1%), excellent solar energy modulation (Delta T-sol = 47.5%), outstanding heat-shielding performance, and excellent stability after 100 heating and cooling cycles. These optical properties outperform the reported thermosensitive cellulose-based materials, vanadium oxide based smart windows, and other thermosensitive hydrogel-based smart windows. Furthermore, HPC/PAA hydrogels are easy to prepare, nontoxic, biocompatible, low-cost, and environmentally friendly, making them very promising materials for energy-saving and climate-adaptable smart windows.

Automated summary

In this study, smart windows were fabricated using poly(acrylic acid) (PAA)-modified HPC hydrogels, with the LCST of the resulting HPC/PAA hybrid hydrogels effectively tuned by solution pH. The sandwich-structured smart window showed high visible-light transmittance, excellent solar energy modulation, outstanding heat-shielding performance, and excellent stability, surpassing other reported thermosensitive materials. The HPC/PAA hydrogels are easy to prepare, nontoxic, biocompatible, low-cost, and environmentally friendly, making them promising materials for energy-saving and climate-adaptable smart windows.