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Author: Longyu Li Publisher: ISBN: Category : Languages : en Pages :
Book Description
The design and synthesis of responsive supramolecular assemblies are of great interest due to their applications in a variety of areas such as drug delivery and sensing. We have developed a facile method to prepare self-crosslinking disulfide-based nanogels derived from an amphiphilic random copolymer containing a hydrophilic oligo-(ethylene glycol)-based side-chain functionality and a hydrophobic pyridyl disulfide functional group. This thesis first provides a concept of studying the influence of Hofmeister ions on the size and guest encapsulation stability of a polymeric nanogel. The size and core density of nanogel can be fine-tuned through the addition of both chaotropes and kosmotropes during nanogel formation. We demonstrate that the change in core density can affect the guest encapsulation stability and stimuli-responsive character of the nanogel. Fluorescence resonance energy transfer (FRET) has been used as the tool to interrogate the guest-exchange process among varieties of host-guest assemblies, which has proved to be quite a robust method to gain insights regarding the guest encapsulation stability in these host assemblies. We studied the effect of host and guest environment upon the guest-exchange dynamics. By systematically comparing the behavior of pH-sensitive and pH-insensitive nanogels, we show that size, concentration, and hydrophobicity can all play a critical role in guest-exchange dynamics. More importantly, these studies reveal that the dominant mechanism of guest exchange can intimately depend on environmental factors. Nanocarriers that can be effectively transported across cellular membranes have potential in a variety of biomedical applications. We report a facile route to prepare nanogels, which generate surface charge with pH viii as stimulus due to the slightly acidic conditions observed in the extracellular environment of solid tumor. We show that the pH at which the charge is generated, i.e. the isoelectric point (pI) of the nanogel, can be easily adjusted. Intracellular delivery of these nanogels was greatly enhanced in an acidic pH environment due to the surface charge generation. This study demonstrates the versatile nature of the nanogels to introduce specific functionalities with relative ease to achieve desired functional behavior. Further, we have taken advantage of photo-induced heterodisulfide metathesis to develop a reagent-free synthetic method to generate self-crosslinking disulfide-based nanogels crosslinked polymer nanoparticles. In addition, we report on a simple method to prepare monodisperse polymeric nanoparticles through sequential boronate esterification of boronic acids and bifunctional catechols under ambient conditions. Our results suggest that the initial polymer formation, serving as the nucleus for monodisperse nanoparticle assembly, involves a cooperative polymerization, wherein the dative bond between the nitrogen in the imine building blocks and the boron in the boronate ester plays a critical role. The dynamic nature of the dative interaction in this equilibrium self-assembly has been shown to endow these nanoparticles with thermal responsive characteristics. Further, hollow metal-organic nanoparticles (MOPs) were synthesized from these polymeric nanoparticles using a simple metal-comonomer exchange process in a single step. The Kirkendall effect has been identified as the underlying mechanism for the formation of these hollow MOPs, which also allows a unique opportunity to tune the shell thickness of the MOPs. The generality of the methodology is evident from that it is applied for a variety of metal ions with different coordination geometries.
Author: Longyu Li Publisher: ISBN: Category : Languages : en Pages :
Book Description
The design and synthesis of responsive supramolecular assemblies are of great interest due to their applications in a variety of areas such as drug delivery and sensing. We have developed a facile method to prepare self-crosslinking disulfide-based nanogels derived from an amphiphilic random copolymer containing a hydrophilic oligo-(ethylene glycol)-based side-chain functionality and a hydrophobic pyridyl disulfide functional group. This thesis first provides a concept of studying the influence of Hofmeister ions on the size and guest encapsulation stability of a polymeric nanogel. The size and core density of nanogel can be fine-tuned through the addition of both chaotropes and kosmotropes during nanogel formation. We demonstrate that the change in core density can affect the guest encapsulation stability and stimuli-responsive character of the nanogel. Fluorescence resonance energy transfer (FRET) has been used as the tool to interrogate the guest-exchange process among varieties of host-guest assemblies, which has proved to be quite a robust method to gain insights regarding the guest encapsulation stability in these host assemblies. We studied the effect of host and guest environment upon the guest-exchange dynamics. By systematically comparing the behavior of pH-sensitive and pH-insensitive nanogels, we show that size, concentration, and hydrophobicity can all play a critical role in guest-exchange dynamics. More importantly, these studies reveal that the dominant mechanism of guest exchange can intimately depend on environmental factors. Nanocarriers that can be effectively transported across cellular membranes have potential in a variety of biomedical applications. We report a facile route to prepare nanogels, which generate surface charge with pH viii as stimulus due to the slightly acidic conditions observed in the extracellular environment of solid tumor. We show that the pH at which the charge is generated, i.e. the isoelectric point (pI) of the nanogel, can be easily adjusted. Intracellular delivery of these nanogels was greatly enhanced in an acidic pH environment due to the surface charge generation. This study demonstrates the versatile nature of the nanogels to introduce specific functionalities with relative ease to achieve desired functional behavior. Further, we have taken advantage of photo-induced heterodisulfide metathesis to develop a reagent-free synthetic method to generate self-crosslinking disulfide-based nanogels crosslinked polymer nanoparticles. In addition, we report on a simple method to prepare monodisperse polymeric nanoparticles through sequential boronate esterification of boronic acids and bifunctional catechols under ambient conditions. Our results suggest that the initial polymer formation, serving as the nucleus for monodisperse nanoparticle assembly, involves a cooperative polymerization, wherein the dative bond between the nitrogen in the imine building blocks and the boron in the boronate ester plays a critical role. The dynamic nature of the dative interaction in this equilibrium self-assembly has been shown to endow these nanoparticles with thermal responsive characteristics. Further, hollow metal-organic nanoparticles (MOPs) were synthesized from these polymeric nanoparticles using a simple metal-comonomer exchange process in a single step. The Kirkendall effect has been identified as the underlying mechanism for the formation of these hollow MOPs, which also allows a unique opportunity to tune the shell thickness of the MOPs. The generality of the methodology is evident from that it is applied for a variety of metal ions with different coordination geometries.
Author: Costas S Patrickios Publisher: Royal Society of Chemistry ISBN: 1839161345 Category : Science Languages : en Pages : 347
Book Description
Amphiphilic polymer co-networks (APCNs) are a type of polymeric hydrogel, their hydrophobic polymer segments and hydrophilic components produce less aqueous swelling, giving better mechanical properties than conventional hydrogels. This new class of polymers is attracting increasing attention, resulting in further basic research on the system, as well as new applications. This book focuses on new developments in the field of APCNs, and is organised in four sections: synthesis, properties, applications and modelling. Co-network architectures included in the book chapters are mainly those deriving from hydrophobic macro-cross-linkers, representing the classical approach; however, more modern designs are also presented. Properties of interest discussed include aqueous swelling, thermophysical and mechanical properties, self-assembly, electrical actuation, and protein adsorption. Applications described in the book chapters include the use of co-networks as soft contact lenses, scaffolds for drug delivery and tissue engineering, matrices for heterogeneous biocatalysis, and membranes of controllable permeability. Finally, an important theory chapter on the modelling of the self-assembly of APCNs is also included. The book is suitable for graduate students and researchers interested in hydrogels, polymer networks, polymer chemistry, block copolymers, self-assembly and nanomaterials, as well as their applications in contact lenses, drug delivery, tissue engineering, membranes and biocatalysis.
Author: Massimo Lazzari Publisher: John Wiley & Sons ISBN: 3527610561 Category : Technology & Engineering Languages : en Pages : 447
Book Description
This first book to take a detailed look at one of the key focal points where nanotechnology and polymers meet provides both an introductory view for beginners as well as in-depth knowledge for specialists in the various research areas involved. It investigates all types of application for block copolymers: as tools for fabricating other nanomaterials, as structural components in hybrid materials and nanocomposites, and as functional materials. The multidisciplinary approach covers all stages from chemical synthesis and characterization, presenting applications from physics and chemistry to biology and medicine, such as micro- and nanolithography, membranes, optical labeling, drug delivery, as well as sensory and analytical uses.
Author: M. Ali Aboudzadeh Publisher: Springer Nature ISBN: 3031006577 Category : Science Languages : en Pages : 404
Book Description
This volume presents recent advances and current knowledge in the field of supramolecular assemblies based on electrostatic interactions. The flexibility and simplicity of constructing assemblies is explained via several examples, illustrations, figures, case studies, and historical perspectives. Moreover, as there is an increasing demand for the use of theoretical and computational models of the interaction strengths for assisting with the experimental studies, one chapter specifically focuses on the "modelling'' of supramolecular assemblies. Finally, various aspects of the recent advances of the field as well as potential future opportunities are discussed, with the goal being to stimulate critical discussions among the community and to encourage further discovery. This volume aims to inspire and guide fellow scientists and students working in this field and thus it provides a great tool for all researchers, graduates and professionals specializing on the topic.
Author: Quan Li Publisher: John Wiley & Sons ISBN: 3527807357 Category : Technology & Engineering Languages : en Pages : 657
Book Description
The first book to explore the potential of tunable functionalities in organic and hybrid nanostructured materials in a unified manner. The highly experienced editor and a team of leading experts review the promising and enabling aspects of this exciting materials class, covering the design, synthesis and/or fabrication, properties and applications. The broad topical scope includes organic polymers, liquid crystals, gels, stimuli-responsive surfaces, hybrid membranes, metallic, semiconducting and carbon nanomaterials, thermoelectric materials, metal-organic frameworks, luminescent and photochromic materials, and chiral and self-healing materials. For materials scientists, nanotechnologists as well as organic, inorganic, solid state and polymer chemists.
Author: Dönüs Tuncel Publisher: Royal Society of Chemistry ISBN: 1788018753 Category : Technology & Engineering Languages : en Pages : 268
Book Description
Smart materials constructed through supramolecular assemblies have been receiving considerable attention because of their potential applications, which include self-healing materials, energy storage, photonic devices, sensors and theranostics. Host–guest chemistry of various macrocyclic receptors with organic guests provides a unique way to control tailor-made nanoarchitectures for the formation of pre-designed functional materials. Cucurbituril-based Function Materials provides an overview of this fascinating macrocycle, cucurbituril (CB) homologues and derivatives-based supramolecular nanostructured materials. Chapters cover the synthesis, properties and application of CB-based smart materials and nanostructures. With contributions from key researchers, this book will be of interest to students and researchers working in materials science, as well as those working on cucurbituril-based materials in organic and physical chemistry.
Author: Laurent Billon Publisher: John Wiley & Sons ISBN: 1118887840 Category : Technology & Engineering Languages : en Pages : 276
Book Description
This book describes techniques of synthesis and self-assembly of macromolecules for developing new materials and improving functionality of existing ones. Because self-assembly emulates how nature creates complex systems, they likely have the best chance at succeeding in real-world biomedical applications. • Employs synthetic chemistry, physical chemistry, and materials science principles and techniques • Emphasizes self-assembly in solutions (particularly, aqueous solutions) and at solid-liquid interfaces • Describes polymer assembly driven by multitude interactions, including solvophobic, electrostatic, and obligatory co-assembly • Illustrates assembly of bio-hybrid macromolecules and applications in biomedical engineering
Author: Amit Singh Publisher: Royal Society of Chemistry ISBN: 1788014669 Category : Technology & Engineering Languages : en Pages : 376
Book Description
The increased understanding of molecular aspects associated with chronic diseases, such as cancer and the role of tumor microenvironment, has led to the identification of endogenous and exogenous stimuli that can be exploited to devise “stimuli-responsive” materials for site-specific drug delivery applications. This book provides a comprehensive account on the design, materials chemistry, and application aspects behind these novel stimuli-responsive materials. Setting the scene, the editors open with a chapter addressing the need for smart materials in delivery applications for therapy, imaging and disease diagnosis. The following chapter describes the key physical and chemical aspects of smart materials, from lipids to polymers to hybrid materials, providing the reader with a springboard to delve into the more application oriented chapters that follow. With in-depth coverage of key drug delivery systems such as pH-responsive, temperature responsive, enzyme-responsive and light responsive systems, this book provides a rigorous foundation to the field. A perfect resource for graduate students and newcomers, the closing chapter on regulatory and commercialization challenges also makes the book ideal for those wanting to take the next step towards clinical translation.
Author: Ikjun Choi Publisher: ISBN: Category : Nanostructured materials Languages : en Pages :
Book Description
Surface-assisted directed assembly allows ultrasoft and replusive functional polymeric "colloids" to assemble into the organized supramolecular ultrathin films on a monomolecular level. This study aims at achieving a fundamental understanding of molecular morphology and responsive behavior of major classes of branched star-shaped polymers (star amphiphilic block copolymers and star polyelectrolytes) and their aggregation into precisely engineered functional ultrathin nanofilms. Thus, we focus on elucidating the role of molecular architecture, chemical composition, and intra/intermolecular interactions on the assembly behavior of highly-branched entities under variable environmental and confined interfacial conditions. The inherent molecular complexity of branched architectures facilitates rich molecular conformations and phase states from the combination of responsive dynamics of flexible polymer chains (amphiphilic, ionizable arms, multiple segments, and free chain ends) and extened molecular design parameters (number of arms, arm length, and segment composition/sequence). These marcromolecular building components can be affected by external conditions (pH, salinity, solvent polarity, concentration, surface pressure, and substrate nature) and transformed into a variety of complex nanostructures, such as two-dimensional circular micelles, core/shell unimicelles, nanogel particles, pancake & brush micelles, Janus-like nanoparticles, and highly nanoporous fractal networks. The fine balance between repulsive mulitarm interactions and surface energetic effects in the various confined surfaces and interfaces enables the ability to fabricate and tailor well-organized ultrathin nanofilms. The most critical findings in this study include: (1) densely packed circular unimicelle monolayers from amphiphilic and amphoteric multiblock stars controlled by arm number, end blocks, and pH/pressure induced aggregation, (2) monolayer polymer-metal nanocomposites by in-situ nanoparticle growth at confined interfaces, (3) on-demand control of exponentially or linearly grown heterogeneous stratified multilayers from self-diffusive pH-sensitive star polyelectrolyte nanogels, (4) core/shell umimicelle based microcapsules with a fractal nanoporous multidomain shell morphology, and (5) preferential binding and ordering of Janus-like unimicelles on chemically heterogeneous graphene oxide surfaces for biphasic hybrid assembly. The advanced branched molecular design coupled with stimuli responsive conformational and compositional behavior presents an opportunity to control the lateral diffusion and phase segregation of branched compact supermolecules on the surface resulting in the generation of well-controllable monolayers with tunable ordering and complex morphology, as well as to tailor their stratified layered nanostructures with switchable morphological heterogeneity and multicompartmental architectures. These surface-driven star polymer supramolecular assemblies and interfaces will enable the design of multifunctional nanofilms as hierarchical responsive polymer materials.
Author: Ayben Kilislioglu Publisher: BoD – Books on Demand ISBN: 9535131575 Category : Science Languages : en Pages : 144
Book Description
Self-assembly is a common principle in molecular fabrication of natural and synthetic systems and has many important applications in the fields of nanoscience and nanotechnology. This book provides clear explanations of the principles of self-assembly with the limitations along with examples and research-based results with discussion for students, researchers, and professions.
Author: Longyu Li
Author: Longyu Li
Author: Costas S Patrickios
Author: Massimo Lazzari
Author: M. Ali Aboudzadeh
Author: Quan Li
Author: Dönüs Tuncel
Author: Laurent Billon
Author: Amit Singh
Author: Ikjun Choi
Author: Ayben Kilislioglu