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Pieczyska E.A., Staszczak M., Kowalczyk-Gajewska K., Maj M., Golasiński K., Golba S., Tobushi H., Hayashi S., Experimental and numerical investigation of yielding phenomena in a shape memory polymer subjected to cyclic tension at various strain rates, POLYMER TESTING, 60, 333-342, 2017 | |
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Gradys A., Sajkiewicz P., Zhuravlev E., Schick C., Kinetics of isothermal and non-isothermal crystallization of poly(vinylidene fluoride) by fast scanning calorimetry, POLYMER, 82, 40-48, 2016 | |
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Gradys A., Geometrical effects during crystallization under confinement in electrospun core-shell fibers. DSC study of crystallization kinetics, POLYMER, 108, 383-394, 2017 | |
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Jarecki L., Ziabicki A., Development of molecular orientation and stress in biaxially deformed polymers. I. Affine deformation in solid state, POLYMER, 43, 2549-2559, 2002 | |
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Jarecki L., Ziabicki A., Molecular orientation and stress in biaxially deformed polymers. II. Steady potential flow, POLYMER, 43, 4063-4071, 2002 | |
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Lanzi M., Salatelli E., Giorgini L., Marinelli M., Pierini F., Effect of the incorporation of an Ag nanoparticle interlayer on the photovoltaic performance of green bulk heterojunction water-soluble polythiophene solar cells, POLYMER, 149, 273-285, 2018 | |
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Misztal-Faraj B., Jarecki L., Pęcherski R. B., Modeling of the kinetics of polymorphic isothermal crystallization of poly (L-lactide) subjected to uniaxial molecular orientation, POLYMER, 281, 126126-1-17, 2023 | |
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Misztal-Faraj B., Pęcherski R.B., Denis P., Jarecki L., Modeling of oriented crystallization kinetics of polymers in the entire range of uniaxial molecular orientation, POLYMER, 173, 141-157, 2019 | |
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Misztal-Faraj B.,Ciupak M.,Pęcherski R.,Jarecki L., Modeling of polymorphic composition development during isothermal crystallization of poly(L-lactide acid), POLYMER, 243, 124618-1-14, 2022 | |
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Moazzami Goudarzi Zahra, Behzad Tayebeh, Ghasemi-Mobarakeh Laleh, Kharaziha Mahshid, An investigation into influence of acetylated cellulose nanofibers on properties of PCL/Gelatin electrospun nanofibrous scaffold for soft tissue engineering, POLYMER, 213, 123313-1-11, 2021 | |
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Moczulska-Heljak Maryla, Heljak Marcin, Sajkiewicz Paweł Ł., Kołbuk Dorota, Unraveling hierarchically ordered melt electro-written tissue engineering scaffolds: Morphological and mechanical insights, POLYMER, 313, 127717-1-9, 2024 | |
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Gadomska‐Gajadhur A., Kruk A., Ruśkowski P., Sajkiewicz P., Dulnik J., Chwojnowski A., Original method of imprinting pores in scaffolds for tissue engineering, POLYMERS FOR ADVANCED TECHNOLOGIES, 1-13, 2020 | |
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Pierini F., Lanzi M., Nakielski P., Pawłowska S., Zembrzycki K., Kowalewski T.A., Electrospun poly(3-hexylthiophene)/poly(ethylene oxide)/graphene oxide composite nanofibers: effects of graphene oxide reduction, POLYMERS FOR ADVANCED TECHNOLOGIES, 27, 11, 1465-1475, 2016 | |
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Wrzecionek M., Bandzerewicz A., Dutkowska E., Dulnik J., Denis P., Gadomska-Gajadhur A., Poly(glycerol citrate)-polylactide nonwovens toward tissue engineering applications, POLYMERS FOR ADVANCED TECHNOLOGIES, 32, 10, 3955-3966, 2021 | |
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Sajkiewicz P., Hashimoto T., Saijo K., Gradys A., Intermediate phase in poly(ethylene) as elucidated by the WAXS. Analysis of crystallization kinetics, POLYMER, 46, 513-521, 2005 | |