List of articles (by subject)
-
Open Access Article
1 - -
Zahra Khoubi-Arani -
Open Access Article
2 - -
zohre taherkhani -
Open Access Article
3 - -
rasoul mohsenzadeh -
Open Access Article
4 - The studying on mechanism, properties and application of shape memory polymers
Hamidreza HaydariShape memory polymers (SMPs) represent a highly special class of materials. As one representative of the intelligent polymeric systems, these materials gained significant interest in recent years. SMPs are stimuli-responsive polymers, which act as stimulants like light, MoreShape memory polymers (SMPs) represent a highly special class of materials. As one representative of the intelligent polymeric systems, these materials gained significant interest in recent years. SMPs are stimuli-responsive polymers, which act as stimulants like light, temperature, PH changes, solvent changes, electrical fields or magnetic fields, and their output is strain. Also, these polymers are highly regarded as essential for fundamental research and technological innovation. The present review will provide a short overview with particular attention to structure, mechanisms and applications of SMPs, shape memory effects and, as well as the current developments and concepts for shape memory polymers. The applications of shape memory polymers can be noted in medical industries, commercial industries, S hape memory polymers (SMPs) represent a highly special class of materials. As one representative of the intelligent polymeric systems, these materials gained significant interest in recent years. SMPs are stimuli-responsive polymers, which act as stimulants like light, temperature, PH changes, solvent changes, electrical fields or magnetic fields, and their output is strain. Also, these polymers are highly regarded as essential for fundamental research and technological innovation. The present review will provide a short overview with particular attention to structure, mechanisms and applications of SMPs, shape memory effects and, as well as the current developments and concepts for shape memory polymers. The applications of shape memory polymers can be noted in medical industries, commercial industries, aerospace industries, self-healing polymers, etc. aerospace industries, self-healing polymers, etc. Manuscript profile -
Open Access Article
5 - Mechanisms and promising applications of mussel-inspired hydrogels
AKBAR MIRZAEI shahrzad javanshir ghalzaleh MIRZAEImussel-inspired chemistry has become a powerful tool for the rational design and synthesis of hydrogels with modified properties and applications due to their unique functionalities. Hydrogels are cross-linked three-dimensional polymer networks with high water content a Moremussel-inspired chemistry has become a powerful tool for the rational design and synthesis of hydrogels with modified properties and applications due to their unique functionalities. Hydrogels are cross-linked three-dimensional polymer networks with high water content and flexible structure, and due to their mechanical and chemical similarities with biological tissues, as well as the existence of mechanical and electrical properties, they are used in various fields of medical engineering, soft robotics, Electronics and environmental science have many applications. Despite the extensive progress in this field, conventional hydrogels still face many problems, such as the lack of general strategies to program the chemical/physical properties and the difficulty in meeting some specific application requirements, especially in the diverse and complex working environment that limit their application. severely restricts. Therefore, the modification of hydrogels according to different purposes can lead to their more and better use in various industries. Adhesive hydrogels are gaining interest for biomedical applications due to their high adhesion, tunable structure, high water content, and biocompatibility. Meanwhile, the modification of normal hydrogels with the help of oyster-inspired chemistry, such as the use of dopamine and tannic acid, can give unique properties to the gels and their application in many fields, including biomedical engineering, electronics, stimuli and sensors. Wider wearable. Our aim in this review article is to investigate the hydrogel made with the help of mussel-inspired compounds. Manuscript profile