منابع مشابه
Interpenetrating Polymer Networks (IPN
Interpenetrating polymer network (IPN) refers to a type of elastomer in which two chemically distinct networks coexist, ideally having a structure that is homogeneous down to the segmental level [1]. The two components are present as co-continuous, interlocking networks (catenanes). This co-continuity can be achieved by kinetic retention of an initially miscible mixture of the monomers used to ...
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4.1 Tissue Engineering ............................................................................ IV-1 4.2 Concentration and Oxygen Dependence of Increases in Scleral Modulus ......................................................................................... IV-3 4.3 Crosslinking Without PEGDM......................................................... IV-7 4.4 In Vivo Treatment Comparison...
متن کاملInterpenetrating Polymer Network (ipn) Microparticles an Advancement in Novel Drug Delivery System: a Review
DELIVERY SYSTEM: A REVIEW Prashant Singh*, S.K. Senthil Kumar, T.S.Keerthi, T. Tamizh Mani, Anil Getyala Department of Pharmaceutics, Bharathi College of Pharmacy, Bharathinagara, Mandya, Karnataka – 571422,India Department of Pharmacognosy, Bharathi College of Pharmacy, Bharathinagara, Mandya, Karnataka – 571422,India Department of Industrial Pharmacy, JSS College of Pharmacy, Mysore, Karnatak...
متن کاملSemi-Interpenetrating Polymer Networks for Enhanced Supercapacitor Electrodes
Conducting polymers show great promise as supercapacitor materials due to their high theoretical specific capacitance, low cost, toughness, and flexibility. Poor ion mobility, however, can render active material more than a few tens of nanometers from the surface inaccessible for charge storage, limiting performance. Here, we use semi-interpenetrating networks (sIPNs) of a pseudocapacitive poly...
متن کاملBiomimetic interfacial interpenetrating polymer networks control neural stem cell behavior.
Highly-regulated signals surrounding stem cells, such as growth factors at specific concentrations and matrix mechanical stiffness, have been implicated in modulating stem cell proliferation and maturation. However, tight control of proliferation and lineage commitment signals is rarely achieved during growth outside the body, since the spectrum of biochemical and mechanical signals that govern...
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ژورنال
عنوان ژورنال: Sen'i Gakkaishi
سال: 1992
ISSN: 0037-9875,1884-2259
DOI: 10.2115/fiber.48.8_p464