Design principles for polymer - based EMI and ionizing - photon shields: Multilayers, segregated networks and foams
Rana Khankishiyeva,
Haji Vahid Akhundzada,
Vugar Khudaverdiev,
Sanam Valiyeva,
Fariz Amirli,
Aynur Mammadova,
Mushfig Mirzayev,
Lala Gahramanli,
Cristian Vacacela Gomez,
Akif Salehov,
Gunel Mammadova,
Aida Azizova,
Ali Mammadov,
Institute of Physics,
Ministry of Science and Education of the Republic of Azerbaijan,
Department of Physics and Chemistry,
Azerbaijan University of Architecture and Construction,
Research Institute of Crop Husbandry,
Ministry of Agriculture of Azerbaijan Republic,
Department of Organic Substances and Technology of High-Molecular Compounds,
Azerbaijan State Oil and Industry University,
Scientific Research Institute Geotechnological Problems of Oil,
Gas and Chemistry,
Azerbaijan State Oil and Industry University,
Department of Chemistry,
Western Caspian University,
Industrial Chemistry Research Laboratory ,
Baku State University,
National Aviation Academy of Azerbaijan Airlines,
Binagadi Medical Center Named After A.D. Malikov,
Faculty of Physics,
Chemical Physics of Nanomaterials,
Baku State University,
Nano Research Laboratory,
Excellent Center,
Baku State University,
Department of Environmental Engineering ,
University of Calabria,
Universidad Ecotec
Journal of Thermoplastic Composite Materials
Published online on May 04, 2026
Journal of Thermoplastic Composite Materials, Ahead of Print.
The way polymers are being designed for protection is changing. Instead of relying on heavy metals or dense composites, researchers are now creating architected polymer shields that block both electromagnetic interference (EMI) and ionizing X/γ - rays ...