Hydrogels for tissue engineering.

https://centaur.reading.ac.uk/38544/10/1-s2.0-S0014305714004091-main%20%281%29.pdf

Biomedical applications of hydrogels: A review of patents and commercial products

Biodegradable polymers and their layered silicate nanocomposites: In greening the 21st century materials world

Properties of lactic acid based polymers and their correlation with composition

Ion exchange membranes: State of their development and perspective

Radiation formation of hydrogels for biomedical purposes. Some remarks and comments

Electron beam crosslinked PEO and PEO/PVA hydrogels for wound dressing

Growth-promotion of plants with depolymerized alginates by irradiation

High-melt-strength polypropylene (PP) was achieved with irradiation by an electron beam generated from an accelerator in the presence of polyfunctional monomers (PFM). Among 16 PFMs, the relatively shorter molecular chain bifunctional monomers such as 1,4-butanediol diacrylate (BDDA) and 1,6-hexanediol diacrylate (HDDA) were the most effective for enhancing the melt strength of PP. The concentration and dose of the HDDA to obtain the high melt strength PP in irradiation under nitrogen gas atmosphere were 1.5 mmol/100 g PP and 1 kGy, respectively. DSC measurement and dynamic mechanical analysis showed that the thermal behavior of the high-melt-strength PP was different from that of the original PP. Crystallinity and crystallization temperature during cooling after heating were lower and higher in high melt strength PP than original PP, respectively. Elongational viscosity at 180°C of the high-melt-strength PP showed a remarkable increase at a certain elongational time with constant strain rate, demonstrating the typical property of high-melt-strength samples. This implies that a few higher molecular chains of PP, formed by intermolecular combination of its chain by HDDA in irradiation, give higher melt strength to induce entanglement of molecular chains. © 1996 John Wiley & Sons, Inc.

High-Melt-Strength Polypropylene with Electron-Beam Irradiation in the Presence of Polyfunctional Monomers

Radiation crosslinked poly(butylene succinate) foam and its biodegradation

Keizo Makuuchi

Papers

Radiation formation of hydrogels for biomedical purposes. Some remarks and comments

Electron beam crosslinked PEO and PEO/PVA hydrogels for wound dressing

Growth-promotion of plants with depolymerized alginates by irradiation

High-Melt-Strength Polypropylene with Electron-Beam Irradiation in the Presence of Polyfunctional Monomers

Radiation crosslinked poly(butylene succinate) foam and its biodegradation