Paper Publications

• [1]  Zhao, X.; Liu, H., Tunable sulfonate-functionalized silsesquioxane-based hybrid networks for efficient gold recovery and selective adsorption of cationic dyes. Separation and Purification Technology 2026, 380.. 
• [2]  Hussain, S.; Liu, H., Three-dimensional covalent organic frameworks based on silsesquioxane for photocatalytic H2O2 production. Materials Today Nano 2026, 33.. 
• [3]  Li, S.; Hussain, S.; Liu, H., Facile Synthesis of Silsesquioxane‐Based Hybrid Crosslinked Polymers via One‐Step Amine‐Ene Reaction for Efficient Adsorption of Various Pollutants. Chemistry – An Asian Journal 2025, 20 (5).. 
• [4]  Zhao, X.; Ge, Q.; Liu, H., One-Pot Sequence Synthesis of a Silsesquioxane-Based Network via “Amine-ene” and “Thiol–ene” Reactions for Efficient Gold(III) Recovery. ACS Applied Engineering Materials 2025, 3 (7), 2031-2041.. 
• [5]  Fan, S.; Kunthom, R.; Meng, Y.; Kostjuk, S. V.; Liu, H., Superhydrophobic fabric coated with double-decker silsesquioxane-based hybrid polymer for efficient oil/water separation and enhanced antifouling performance. Cellulose 2025, 32 (10), 6269-6284.. 
• [6]  Liu, M.-S.; Kunthom, R.; Dudziec, B.; Liu, H.-Z., Rational Design and Fabrication of Cyclotetrasiloxane-based Hybrid Superhydrophobic Fabrics for Oil/Water Separation and Self-cleaning. Chinese Journal of Polymer Science 2025, 43 (6), 1022-1031.. 
• [7]  Zhao, X.; Pakuła, D.; Frydrych, M.; Konieczna, R.; Sztorch, B.; Kozera, R.; Liu, H.; Zhou, H.; Przekop, R. E., Treatment and Valorization of Waste Wind Turbines: Component Identification and Analysis. Materials 2025, 18 (2).. 
• [8]  Dong, J.; Yang, X.; Li, J.; Liu, H., Preparation of silsesquioxane/polyacrylamide/carboxymethyl chitosan hydrogel with ultra-stretchable properties for advanced flexible sensing applications. International Journal of Biological Macromolecules 2025, 322.. 
• [9]  Zhang, Mengshuang. Silsesquioxane-Based Hybrid Semiconductor Polymers for Efficient Antibiotic Photodegradation and Detection Simultaneously.  ACS Applied Polymer Materials,  7,  4633-4643, 2025. 
• [10]  Li, Shusen. Furfural-bridged silsesquioxane-based hybrid network rich in heteroatoms for selective adsorption and reduction of Au(III) in the aqueous phase.  Chemical Engineering Journal,  506,  2025. 
• [11]  Jiuxiao Dong. Silsesquioxane-crosslinked chitosan aerogels with highly selective adsorption for Au(III).  International Journal of Biological Macromolecules,  2025. 
• [12]  Zhang, Mengshuang. AIE-derived fluorescent silsesquioxane-based hybrid aerogel for light-enhanced gold recovery.  Desalination,  593,  2025. 
• [13]  Zhang, T.; Ge, Q.; Liu, H., Facile and Rapid Fabrication of (trifluoropropyl) Silsesquioxanes/Ethyl Cyanoacrylate-Based Hybrid Superhydrophobic Coatings for Oil–Water Separation and Metal Anticorrosion. ACS Applied Engineering Materials 2024, 2 (1), 215-223.. 
• [14]  Yang, N.; Kunthom, R.; Liu, H., Pyrene‐Functionalized Silicon Hybrid Porous Polymer for an Efficient Adsorption of Dyes. European Journal of Inorganic Chemistry 2024, 27 (31).. 
• [15]  Guo, X.; Sun, C.; Liu, H., Triangular Triazine-Triphenylamine Functionalized Hybrid Fluorescent Porous Polymers for Detection and Photodegradation of Tetracycline Hydrochloride. Langmuir 2024, 40 (25), 13070-13081..