From proprietary patents to co-developed results with industrial partners, to peer-reviewed publications: these pieces of evidence demonstrate the quality, traceability, and rigor of our work in materials science. SPINPET’s patents and publications support technology transfer, industrial validation and licensing opportunities across polymer materials, recycling processes and functional technologies.
PATENTS AND PUBLICATIONS
Technology, Results, Evidence: SPINPET's Scientific Heritage
SPINPET Proprietary and Co-Owned Patents
SPINPET’s patent portfolio includes innovative polymer materials, advanced recycling processes, and industrial technologies designed for scalable manufacturing.
ITPI20110090A1
Impact-resistant thermoplastic based on condensation polymers and its production method.
IT201700115604A1
Process for an innovative nanostructured anionic membrane based on an epoxy side-chain copolymer and modified layered clay for electrolysis and fuel cells.
EP4494833A1
Method for producing plastic granules from recycling of waste fabrics and/or yarns.
IT201600126625A1
Simple insoles for foot protection against bacteria, fungi, and odors.
EP4317833A1
Piping for adapted thermal conductivity.
Co-Developed Patents for Industry with SPINPET Inventors
IT201900009246A1
Casein crosslinking process and polymeric material derived from crosslinked casein.
EP2984130A
Improved polyolefin mixture.
SPINPET Scientific Publications
Peer-reviewed publications provide scientific validation of the applied research behind each SPINPET patent and industrial project.
2014. Evidences of Transesterification, Chain Branching and Cross-Linking in a Biopolyester Commercial Blend upon Reaction with Dicumyl Peroxide in the Melt. F. Signori, A. Boggioni, M. C. Righetti, C. E.Rondàn, S. Bronco, F. Ciardelli Doi: 10.1002/mame.201400187
2019. Molecular evolution during dynamic vulcanization of polyolefin mixtures for lead-free thermoplastic vulcanized. F. Ciardelli, S. Dossi, A, Galanti, A. Magri, S. Riolo. Doi: 10.1002/pat.4821
2020. Development of advanced materials guided by numerical simulations to improve performance and cost-efficiency of borehole heat exchangers (BHEs). B. Badenes, B. Sanner, M. A. Mateo Pla, J. M. Cuevas, F. Bartoli, F. Ciardelli, R. M. Gonzàlez, A. N. Ghafar, P. Fontana, L. L. Zuniga, J. F. Urchueguía. Doi: 10.1016/j.energy.2020.117628
2023. Opportunities and Limitations in Recycling Fossil Polymers from Textiles. S. Bianchi, F. Bartoli, C. Bruni, C. Fernandez-Avila, L. Rodriguez-Turienzo, J. Mellado-Carretero, D. Spinelli, M. B. Coltelli Doi: 10.3390/macromol3020009
2023. Polyketone-Based Anion-Exchange Membranes for Alkaline Water Electrolysis. O. Racchi, R. Baldassari, E. Araya-Hermosilla, V. Mattoli, P. Minei, A. Pozio, A. Pucci. Doi: 10.3390/polym15092027
2023. Pyrolysis of spent rapeseed meal: A circular economy example for waste valorization. R. Gallorini, S. Aquilia, C. Bello, F. Ciardelli, M. Pinna, A. M. Papini, L. Rosi. Doi: 10.1016/j.jaap.
2023.106138 2024. Study of the Preparation and Properties of Chemically Modified Materials Based on Rapeseed Meal. S. Aquilia, L. Rosi, M. Pinna, S. Bianchi, W. Giurlani, M. Bonechi, F. Ciardelli, A. M. Papini, C. Bello. Doi: 10.3390/biom14080982
2024. Improving the Elastic Response of Tanned Leather by Treatment with a Carboxylic Elastomer. D. Marinai, C. Borchi, L. Marinai, G. A. Defeo, A. Manariti, P. Minei, V. Castelvetro, F. Ciardelli. Doi: 10.3390/polym16233411
2025. Recycling Textiles: From Post-Consumer Polyester Garments to Materials for Injection Molding. S. Bianchi, M. Pinna, F. Bartoli, P. Minei, D. Filidei, M. B. Coltelli. Doi: 10.3390/polym17060748
2025. Incorporation of Protein Hydrolysate into Rapeseed Meal-Based Materials to Improve Flexibility. S. Aquilia, C. Bello, M. Pinna, S. Bianchi, W. Giurlani, F. Ciardelli, L. Rosi, A. M. Papini. Doi: 10.3390/polym17131740