Responsive polymer materials can adapt to surrounding environments, regulate transport of ions and molecules, change wettability and adhesion of different species on external stimuli, or convert chemical and biochemical signals into optical, electrical, thermal and mechanical signals, and vice versa …
Abstract Responsive polymer materials can adapt to surrounding environments, regulate transport of ions and molecules, change wettability and adhesion of different species on external stimuli, or
Stimuli-Responsive Polymer Sustainable resin systems for polymer composites. Faisal I. Chowdhury, in Advances in Sustainable Polymer Composites, Stimuli-responsive polymers in coating and laminating for functional textile. Md Anwar Jahid, Thermo-responsive polymers. A.K. Teotia, Applications of stimuli-responsive polymers 2.1 Sensing and biosensing. A sensor is a self-contained integrated device that is able to receive an input from its 2.2 Controlled drug delivery. Living systems react to external stimuli by responding and adapting to changing external 2.3 Artificial Stimuli responsive polymers for biomedical applications Polymers that can respond to external stimuli are of great interest in medicine, especially as controlled drug release vehicles. In this critical review, we consider the types of stimulus response used in therapeutic applications and the main classes of responsive materials developed to date.
A series of lectures featuring materials sciences expert Professor Rigoberto Advincula of Case Western Reserve University! With considerable expertise in the Supramolecular shape memory hydrogels: a new bridge between stimuli-responsive polymers and supramolecular chemistry W. Lu, X. Le, J. Zhang, Y. Huang and T. Chen, Chem. Soc. Rev. , 2017, 46 , 1284 Stimuli-responsive polymers can also be exploited for engineering biological detection techniques such as immunoassays, bioseparations, and affinity precipitation techniques. Roy et al. demonstrated the utility of conjugating a thermally responsive polymer based on a poly 5 Stimuli-responsive polymers: future perspectives 5-1 References 5-2 v. Preface In the last decade there has been considerable work carried out on stimulus responsive nanogels, which have come to make a significant impact in the develop-ment of drug delivery systems. Stimuli-responsive polymers undergo dramatic and abrupt physical and chemical changes in response to external stimuli [2].
In addition to elastomers, hyperelastic material models are also used to approximate the material behavior of biological tissues, polymeric foams, etc. Linearly Jan 3, 2020 New types of 2D and 3D stimuli‐responsive materials can be properties, which are inspiring the next generation of smart materials.
Abstract. Stimuli-responsive polymers undergo a change in their physical properties in response to a given physical or biological stimulus. In biomedical applications, a physician could use an external stimulus, such as light, to promote a change in a device.
Responsive polymer-based materials are capable of altering their chemical and/or physical properties upon exposure to external stimuli. These materials have been intensively studied over the years for a diverse range of applications, e.g., for on-demand drug delivery, tissue generation/repair, biosensing, smart coatings, and artificial muscles. Smart polymers, stimuli-responsive polymers or functional polymers are high-performance polymers that change according to the environment they are in.
Stimuli-responsive polymers undergo dramatic and abrupt physical and chemical changes in response to external stimuli [2]. They are also termed ‘smart-’ [3, 4], ‘intelli-gent-’ [5], or ‘environmentally sensitive’ polymers [6]. One important feature of this type of material is reversibility,
doi: 10.1021/acs.nanolett.9b01660. Epub 2019 Aug 7. Authors Phei Er Saw Upon administration, stimuli-responsive polymers encounter a variety of biological molecules, cells, and tissues. The surface of stimuli-responsive polymers would be quickly covered with biological molecules such as serum proteins which play a vital role in determining the subsequent bio-distribution and cellular responses of polymers. 2017-07-18 Stimuli-responsive polymers have been mainly emphasized for their. potential applications in nanoscience, nanotechnology, and nanomedicine.
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Due to the increasing demand for “smart” materials and systems e.g. for actuators, microvalves, but also for drug delivery, electrooptical devices and many other applications, multi-stimuli responsive materials such as amino-functional polymers are attracting increasing attention in recent years. This review describes some commercially available stimuli-responsive polymers of natural and synthetic origin, and their applications in drug delivery and textiles. The polymers of natural origin such as chitosan, cellulose, albumin, and gelatin are found to show both thermo-responsive and pH-respon …
The use of stimuli-responsive polymers in sensing technologies and for actuation has garnered tremendous interest over the past few decades. This is mainly due to the myriad responsivities that these polymers can possess, e.g., responsivity to temperature, pH, biomolecules, CO 2, light, and electricity.
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The polymers are usually called stimuli-responsive polymers or “smart polymers.” The changes mainly include structure and property variations, whereas the (Co)polymers have been developed that respond to a very broad range of external stimuli, such as pH, temperature, light, redox, salt, CO2, electric or magnetic This review describes some commercially available stimuli-responsive polymers of natural and synthetic origin, and their applications in drug delivery and Apr 11, 2016 Polymers capable of responding to field or gradient effects that include temperature, pH, light, pressure, etc.
In addition to elastomers, hyperelastic material models are also used to approximate the material behavior of biological tissues, polymeric foams, etc. Linearly
Jan 3, 2020 New types of 2D and 3D stimuli‐responsive materials can be properties, which are inspiring the next generation of smart materials. Stimuli-responsive polymers are defined as high-performance polymers that can change in accordance with the environment they are subjected to. For systemic
Stimuli Responsive Polymers.
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Stimuli responsive polymers have attracted great attention both from the scientific and engineering viewpoints. Although water-soluble responsive polymers and hydrogels have been extensively studied and reported, there is little work on non-aqueous responsive polymer systems.
10 These responses can lead to changes in shape, solubility, permeability, and increasing momentum especially in the fields of controlled and self-regulated drug delivery. Stimuli-responsive or “smart“ polymers are macromolecules that display a significant physiochemical change in response to small changes in their environment such as temperature, pH, … 2012-04-18 This special issue, Stimuli-Responsive Materials: Polymers, Colloids, and Multicomponent Systems, focuses on an area of intensive current study that has emerged from the application of bioinspired mechanisms to create functional systems using traditional materials. 2019-04-03 The abilities of intelligent polymer hydrogels to change their structure and volume phase in response to external stimuli have provided new possibilities for various advanced technologies and great research and application potentials in the medical field. The natural polymer-based hydrogels have the … Stimuli-Responsive Polymer-Prodrug Hybrid Nanoplatform for Multistage siRNA Delivery and Combination Cancer Therapy Nano Lett.
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Stimuli-responsive polymers or macromolecules also exhibit the ability to convert biochemical and chemical signals into mechanical, thermal, optical, and electrical signals, and vice versa, for which they are utilized in an array of applications like “smart” optical systems, drug delivery, diagnostics, and tissue engineering, in conjunction
Smart polymers, stimuli-responsive polymers or functional polymers are high-performance polymers that change according to the environment they are in.