Global ETD Search

21	Anionic Synthesis of Well-defined Functionalized and Star-branched Polymers Ocampo, Manuela January 2007 (has links) No description available. Chemistry, Polymer anionic polymerization functionalized polymers star branched polymers
22	Dispersion Characteristics of Nanocomposites Based on Functionalized Block Copolymers Ke, Linping 28 July 2010 (has links) No description available. Materials Science Polymers nanocomposites functionalized block copolymers dispersion characteristics
23	Silane Based Radical Polymerization: Functionalized Homopolymers and Copolymers Stefanac, Tomislav 09 1900 (has links) <p> This thesis presents a study on silane based polymerization in two parts. </p> <p> In Part A, diphenylvinylsilane (1) underwent oligomerization with initiation by azo(bisisobutyronitrile) (AIBN) or benzoyl peroxide (BPO). The vinyl groups were preferentially consumed under either set of conditions. Several products were isolated; these included oligomers 3, an AIBN adduct 4, a dimer 5, and a trimer 6. The residual SiH moieties could be subsequently coupled hydrosilylatively with alkynes or vinylsilicones. The efficiency of the radical reactions was very low. 15% starting material was recovered even with 200 mol% of initiating radicals added to the reaction mixture. The relative radical reactivities of the two functional groups is discussed.</p> <p> In Part B, 1 was radically copolymerized with styrene and methyl methacrylate (MMA). From the results of infrared and 1H NMR it was determined that 1 participated in copolymerization via a vinyl type polymerization and not in the form of a hydrogen-transfer type polymerization. Residual SiH groups along the backbone of the polymer remained reactive. A vinylsilicone and 9-vinylanthracene were grafted onto the copolymer from MMA and 1 by hydrosilylation and radical methods, respectively.</p> / Thesis / Master of Science (MSc)
24	Design, Synthesis and Characterization of Oriented Glyco-Affinity Macroligands for Glyco-Capturing, Glycomics and Glycoproteomics Applications Chalagalla, Srinivas 29 March 2011 (has links) No description available. Chemistry boropolymer carbohydrates Boronic acid AuNPs chain-end functionalized
25	NANOMATERIALS-BASED SENSORS FOR PEROXYNITRITE DETECTION AND QUANTIFICATION Kalil, Haitham Fawzy Mohamed January 2017 (has links) No description available. Chemistry Peroxynitrite Cyclic Voltammetry Manganese functionalized graphene-hemin Aniline selenide
26	Synthesis of Functionalized Sustainable Polyesters via Controlled Ring-opening Polymerization of O-carboxyanhydrides Wang, Xiaoqian 05 January 2023 (has links) Despite the degradability and biocompatibility of poly(α-hydroxy acids), their utility remains limited because their thermal and mechanical properties are inferior to those of commodity polyolefins, which can be attributed to the lack of side-chain functionality on the polyester backbone. Attempts to synthesize high-molecular-weight functionalized poly(α-hydroxy acids) from O-carboxyanhydrides have been hampered by scalability problems arising from the need for an external energy source such as light or electricity. Herein, an operationally simple, scalable method for synthesizing stereoregular, high-molecular-weight (>200 kDa) functionalized polyesters have been developed by means of controlled ring-opening polymerization of O-carboxyanhydrides mediated by a highly redox reactive manganese complex and a zinc-alkoxide. Mechanistic studies indicated that the ring-opening process proceeded via the Mn-mediated decarboxylation with alkoxy radical formation (Chapter 2). In addition to the polymerization, a two-step facile chemical recycling strategy for poly(α-hydroxy acids) was developed to achieve closed-loop life cycles (Chapter 3). Moreover, this synthetic strategy is not limited to preparing homopolymers and block copolymers but also to producing stereoblock and gradient copolymers (Chapter 4). In particular, the gradient copolymers exhibited better ductility and toughness than their corresponding homopolymers and block copolymers, highlighting the potential feasibility of functionalized polyesters as strong and resilient polymeric materials (Chapter 5). Next, an atom-economical, scalable method for block copolymerization of O-carboxyanhydrides and epoxides to prepare functionalized poly(ester-b-carbonates) with high molecular weights (>200 kDa) was identified, that uses a single Lewis acidic zinc complex at room temperature in the absence of pressurized CO2 (Chapter 6). Kinetic studies showed that the first stage of the process, ring-opening polymerization of the O-carboxyanhydrides, exhibited zero-order kinetics, suggesting that the polymerization rate was independent of monomer concentration, thus allowing for a sharp switch in mechanism without a tapering effect (Chapter 7). The obtained poly(ester-b-carbonates) showed better toughness than their corresponding homopolymers and outperformed some commodity polyolefins (Chapter 8). Exploring this new chemical space of poly(ester-b-carbonates) via stereosequence-controlled synthetic methods would be a critical step toward improving this promising class of functionalized sustainable polymers (Chapter 9). / Doctor of Philosophy / Poly(α-hydroxy acids) is an environmentally friendly alternative to petrochemical polyolefins due to their excellent degradability and biocompatibility. However, it is difficult to synthesize high-molecular-weight functionalized polyesters on a large scale due to the inefficient catalysts and the need for external energy, such as light and electricity. Herein, a highly reactive Mn/Zn catalytic system for controllable O-carboxyanhydrides (OCAs) polymerization has been designed. Compared with the previously reported catalytic system, this method can be used to produce low-cost, large-scale preparation of high molecular weight (>200 kDa) polyesters without the need for external energy sources (Chapter 2). In addition, our synthesized polyesters can be completely degraded under mild conditions, thereby achieving a circular economy in the polyester industry (Chapter 3). More importantly, our operationally simple synthetic method could afford polyesters with different compositions, such as homopolymers, block copolymers, stereoblock copolymers, and gradient copolymers (Chapter 4). In particular, the obtained gradient copolymer is tough and ductile that could compete with commercial polyolefins in terms of mechanical and thermal properties, such as low-density polyethylene (LDPE) (Chapter 5). Next, we developed a single Lewis acidic zinc complex to achieve the copolymerization of OCA and epoxide to synthesize poly(ester-b-carbonates), which enriches the class of degradable polymers (Chapter 6). Moreover, this copolymerization showed unique reaction kinetics that enabled the perfectly clean switching of the polymerization mechanism during chain propagation (Chapter 7). The obtained poly(ester-b-carbonates) showed better toughness than their corresponding homopolymers and outperformed some non-degradable plastics (Chapter 8). The exploration of novel degradable polymers by sequence-controlled polymerization to replace non-degradable polyolefin on the market will continue in the near future (Chapter 9). Ring-opening polymerization O-carboxyanhydrides organometallic catalysts functionalized polyesters degradation
27	Functionalization of Nanocarbons for Composite, Biomedical and Sensor Applications Kuznetsov, Oleksandr 24 July 2013 (has links) New derivatives of carbon nanostructures: nanotubes, nano-onions and nanocrystalline diamonds were obtained through fluorination and subsequent functionalization with sucrose. Chemically modified nanocarbons show high solubility in water, ethanol, DMF and can be used as biomaterials for medical applications. It was demonstrated that sucrose functionalized nanostructures can find applications in nanocomposites due to improved dispersion enabled by polyol functional groups. Additionally, pristine and chemically derivatized carbon nanotubes were studied as nanofillers in epoxy composites. Carbon nanotubes tailored with amino functionalities demonstrated better dispersion and crosslinking with epoxy polymer yielding improved tensile strength and elastic properties of nanocomposites. Reductive functionalization of nanocarbons, also known as Billups reaction, is a powerful method to yield nanomaterials with high degree of surface functionalization. In this method, nanocarbon salts prepared by treatment with lithium or sodium in liquid ammonia react readily with alkyl and aryl halides as well as bromo carboxylic acids. Functionalized materials are soluble in various organic or aqueous solvents. Water soluble nanodiamond derivatives were also synthesized by reductive functionalization of annealed nanodiamonds. Nanodiamond heat pretreatment was necessary to yield surface graphene layers and facilitate electron transfer from reducing agent to the surface of nanoparticles. Other carbon materials such as activated carbon and anthracite coal were also derivatized using reductive functionalization to yield water soluble activated carbon and partially soluble in organic solvents anthracite. It was shown that activated carbon can be effectively functionalized by Billups method. New derivatives of activated carbon can improve water treatment targeting specific impurities and bio active contaminants. It was demonstrated that functionalized carbon nanotubes are suitable for real time radiation measurements. Radiation sensor incorporating derivatized carbon nanotubes is lightweight and reusable. In summary, functionalization of carbon nanomaterials opens new avenues for processing and applications ranging from biomedicine to radiation sensing in space. Carbon nanotubes nano-onions nano onions onion like structures nanodiamond nanocarbon nanomaterials water soluble nanocarbons nanocomposites functionalization covalent modification functionalization of nanocarbons functionalization of nanomaterials functionalized nanotubes functionalized nano-onions functionalized nanodiamond fluorination fluorinated nanocarbons fluorinated nanomaterials Valery Khabashesku nanodiamond graphitization radiation sensor functionalized anthracite coal functionalized activated carbon activated carbon for water treatment water soluble activated carbon sucrose functionalized nanocarbons
28	A Force Spectroscopy Setup to Mimic Cellular Interaction Processes Lorenz, Bärbel 26 June 2012 (has links) No description available. 540 Force Spectroscopy Lipid Membranes Cellular Interactions Functionalized Membranes Mimicry Force Spectroscopy Lipid Membranes Cellular Interactions Functionalized Membranes Mimicry Chemie (PPN62138352X)
29	Catalytic Material Design: Impact of Synthesis Conditions on the Pore Architecture and Catalytic Performance of Micro-Mesoporous Silica Supported Catalysts Kane, Ashwin 05 October 2022 (has links) No description available. Chemical Engineering
30	Synthesis and Characterization of Nanoporous Copolymers with Potential Gas Storage Applications Zhou, Xu 10 October 2013 (has links) Nanoporous organic polymers, including hypercrosslinked polymers (HCPs), covalent organic frameworks (COFs), polymers of intrinsic microporosity (PIMs), and conjugated microporous polymers (CMPs) etc., are considered good candidates for potential gas storage and gas separation applications. Porosities and surface areas of a series of semirigid alternating copolymers, which contained tert-butyl carboxylate-functionalized stilbene or tert-butyl carboxylate-functionalized styrene, and maleic anhydride or tert-butyl carboxylate-functionalized phenyl maleimide, were investigated using nitrogen sorption/desorption isotherms at 77 K and molecular simulations. These alternating copolymers were found to have Brunauer-Emmett-Teller (BET) surface areas in the range of 20-40 m2/g. Surface areas of these alternating copolymers increased as the steric crowding of the polymer backbone increased, which was the result of introducing extra phenyl rings and/or N-phenyl substituent maleimide units. Surface areas were found to increase as the persistence length increased. A series of HCPs containing functionalized stilbene and N-substituted phenyl maleimide were synthesized via free radical suspension polymerization. The incorporation of these functionalized, chain stiffening, Tg enhancing comonomers raised the Tgs of precursor polymers before they were crosslinked. Surface areas of these HCPs, obtained from nitrogen adsorption/desorption isotherms at 77 K, were up to 1058 m2/g. However, the surface areas of these HCPs were systematically lower than the controls. The high rigidity of the polymer backbone, which was the result of incorporating Tg enhancing comonomer, likely affected the chain mobility of the precursor polymer, decreased the efficiency of post-crosslinking reactions, and thus resulted in lower surface areas. Amine-functionalized styrene/stilbene polymers were prepared via free radical polymerization or post-modification. Amine-containing silica-based sorbents were prepared using the impregnation method. Sorption of CO2 by these materials was tested using TGA and compared with control samples. Both high amine content and certain levels of surface area were found to be important for a sorbent to achieve high CO2 uptake. Highest CO2 uptake (12 wt%) under our testing condition in these materials was achieved by an amine-containing silica sorbent. / Ph. D. nanoporous polymer semirigid alternating copolymer gas sorption surface area functionalized stilbene functionalized maleimide hypercrosslinked polymer suspension polymerization free radical polymerization mesoporous silica CO2 capture

Search results