Photothermal performance of polymer hydrogels via solar vapor generation for clean water production: a comprehensive review

Authors

• Flora Serati, International Islamic University Malaysia
• Syazwani Mohd Zaki, International Islamic University Malaysia
• Chin Wei Lai, Universiti Malaya
• Norazuawana Shaari, Universiti Kebangsaan Malaysia
• Nadiah Mokhtar, Universiti Malaysia Pahang Al-Sultan Abdullah
• Siti Hajar Yusoff, International Islamic University Malaysia

Document Type

Review

Publication Date

6-1-2026

Abstract

Solar vapor generation (SVG) is an innovative and sustainable technology that plays a vital role in tackling the pressing issue of global water scarcity. By harnessing solar energy, SVG offers an effective solution to improve water access and sustainability. Polymeric hydrogels, with their innate hydrophilicity and tunable water transport properties, have emerged as a leading material platform for this application. However, their native limitations in solar absorption and thermal conductivity constrain overall solar-to-vapor conversion efficiency. This review critically analyzes the material design strategies employed to transform passive hydrogel matrices into efficient photothermal materials. The primary focus is on methodologies to maximize light absorption and optimize thermal management. Key approaches include the integration of photothermal nanoabsorbers, the synthesis of intrinsically absorptive copolymer networks, and the fabrication of interpenetrating or composite structures. Furthermore, engineering the polymeric hydrogel network by precisely tuning cross-linking density, porosity, and effectively localize thermal energy at the evaporation front. By synthesizing recent advances, this review establishes a clear connection between material-level modifications and enhanced system-level performance, providing a roadmap for the rational design of next-generation hydrogel evaporators. Advancing these material strategies is essential for transitioning SVG from a promising concept into a practical, scalable technology for sustainable water production.

Keywords

Clean water production, Hydrogel, Photothermal materials, Polymer, Solar vapor generation, Water purification

Publication Title

Polymer Bulletin

ISSN

0170-0839

DOI

10.1007/s00289-026-06337-1

Recommended Citation

Serati, Flora; Mohd Zaki, Syazwani; Lai, Chin Wei; Shaari, Norazuawana; Mokhtar, Nadiah; and Yusoff, Siti Hajar, "Photothermal performance of polymer hydrogels via solar vapor generation for clean water production: a comprehensive review" (2026). Research Publications (2026 to 2030). 102.
https://knova.um.edu.my/research_publications_2026_2030/102

Volume

83

Issue

6

Publisher

Springer