RAFT mediated polysaccharide copolymers

Fleet, Reda

12 1900

Thesis (MSc (Chemistry and Polymer Science))--University of Stellenbosch, 2006. / Cellulose, one of the most abundant organic substances on earth, is a linear polymer of D-glucose units joined through 1,4-β-linkages. Cellulose is however not easily processed without chemical modification. A number of techniques exist for the modification of cellulose, of which the viscose process is one of the most widely applied. Grafting of synthetic polymeric chains onto or from cellulosic materials is an useful technique that can be used to combine the strengths of synthetic and natural polymers dramatically, so changing the properties of cellulosic materials (pulp, regenerated cellulose, cellulose derivatives). In this study five model xanthate (Reversible Addition-Fragmentation chain Transfer (RAFT)/Macromolecular Design through Interchange of Xanthates (MADIX)) agents, namely, monofunctional, difunctional, trifunctional and tetrafunctional species of the form S=C(O-Z)-S-R, with different leaving groups and different activating moieties, were prepared and then studied to determine the feasibility of cellulose modification via addition fragmentation processes. These agents were characterized by Nuclear Magnetic Resonance spectroscopy (NMR), Fourier Transform Infrared spectroscopy (FT-IR) and Ultraviolet spectroscopy (UV). Polyvinyl acetates (PVAc) in the form of linear, three armed and four armed star shaped polymers were then successfully synthesized in reactions mediated by these xanthate RAFT/MADIX agents Xanthates were applied to polysaccharide materials using the viscose process (xanthate esters were formed directly on a cellulosic substrate, with subsequent alkylation) Grafting reactions were then conducted with the polysaccharides; cellulose was modified with vinyl acetate, [this is an example of a surface modification of natural polymers that is of interest in various industries, such as textiles and paper manufacture]. Analysis of the graft copolymers was conducted via Size Exclusion Chromatography (SEC), Liquid Adsorption Chromatography (LAC), Thermogravimetric Analysis (TGA), and FT-IR. Polyvinyl acetate was successfully grafted onto three polysaccharides (cellulosic materials), namely Hydroxyl Propyl Cellulose (HPC), Methyl Cellulose (MC) and cellulose. The study showed that the modification of cellulosic substrates with defined grafts of vinyl acetate can be easily achieved through minor modifications to existing industrial techniques.

RAFT

Polysaccharide

Graft copolymers

Xanthate

Addition polymerization

Dissertations -- Polymer science

Theses -- Polymer science

Chemistry and Polymer Science

Novel synthesis of block copolymers via the RAFT process

Bowes, Angela

12 1900

Thesis (MSc (Chemistry and Polymer Science))--University of Stellenbosch, 2007. / The synthesis of complex architectures, namely block copolymers with tailored enduse properties, is currently an important research area in academia and industry. The challenge is finding a versatile polymerization technique capable of controlling the molecular properties of the formed copolymers, which in turn determines their macroscopic properties. Reversible addition-fragmentation chain transfer (RAFT)- mediated living polymerization is a robust technique capable of producing controlled polymer products. With the great advances in living polymerization techniques and the environmental awareness of society there is an increasing demand to produce these polymer products via the RAFT living technique in heterogeneous media. Conventional emulsion and miniemulsion polymerization present various problems when used to produce polymers mediated by the RAFT process. There is an inherent need to find cost effective and flexible operating conditions to conduct RAFT polymerization in heterogeneous media with the ability to produce well-defined block copolymers. In this study the use of three novel trithiocarbonate RAFT agents to produce welldefined AB-type, ABA-type and star block copolymers via the RAFT process was investigated. Optimal operating conditions for the production of living block copolymers in homogenous and heterogeneous media were determined. The main focus was on the development of the RAFT process in heterogeneous media to efficiently produce block copolymer latex products. The RAFT-mediated miniemulsion polymerization system stabilized with non-ionic surfactants was thoroughly investigated. The ability of the ab initio and in situ RAFT-mediated emulsion polymerization systems to produce controlled latexes was demonstrated. Controlled block copolymer products were successfully synthesized in homogenous and heterogeneous media via the RAFT process when the optimum reaction conditions were chosen.

RAFT polymerization

Block copolymers

Addition polymerization

Emulsion

Dissertations -- Polymer science

Theses -- Polymer science

Chemistry and Polymer Science

Synthesis and characterization of surfmers for latex stabilization in RAFT-mediated miniemulsion polymerization

Matahwa, Howard

12 1900

Thesis (MSc (Chemistry and Polymer Science))--University of Stellenbosch, 2005. / Synthesis of two surfmers (cationic and anionic) was carried out and the surfmers were used to stabilize particles in miniemulsion polymerization. Surfmers were used to eliminate adverse effects associated with free surfactant in the final product e.g. films and coatings. The Reversible Addition Fragmentation chain Transfer (RAFT) polymerization process was used in miniemulsion polymerization reactions to control the molecular weight distribution. RAFT offers a number of advantages that include its compatibility with a wide range of monomers and solvents. Moreover block copolymer synthesis is possible via chain extension. A comparative study between classical surfactants and surfmers was conducted in regard to reaction rates and molar mass distribution. The rates of reactions of surfmer stabilized RAFT miniemulsion polymerization of Styrene and MMA were similar (in most cases) to classical surfactant stabilized RAFT miniemulsion polymerization reactions. The final particle sizes were also similar for polystyrene latexes stabilized by surfmers and classical surfactants. However PMMA latexes stabilized by surfmers had larger particle sizes compared to latexes stabilized by classical surfactants. The surfmers were also oligomerized in homogeneous media using the RAFT process and their Mn values were estimated using UV-VIS spectroscopy. The oligosurfmers were then used as emulsifiers in RAFT miniemulsion polymerization. The rates of reaction were slower than rates obtain when the surfmers (monomer or oligosurfmers) were used directly as emulsifiers in RAFT miniemulsion polymerization of styrene and MMA. The final latex particle sizes obtained with oligosurfmers were also larger than that of latex stabilized by their parent monomers. The RAFT process was successfully applied in miniemulsion polymerization in both classical surfactant and surfmer stabilized miniemulsions. The molecular weight increased with conversion showing that the molecular weights of the polymers were controlled.

Addition polymerization

RAFT polymerization

Dissertations -- Polymer science

Theses -- Polymer science

Chemistry and Polymer Science

Reversible addition fragmentation chain transfer (RAFT) mediated polymerization of N-vinylpyrrolidone

Pound, Gwenaelle

03 1900

Thesis (PhD (Chemistry and Polymer Science)--University of Stellenbosch, 2008. / Xanthate-mediated polymerization was investigated as a tool for the preparation of well-defined poly(N-vinylpyrrolidone) and copolymers of N-vinylpyrrolidone. Some results regarding the monomer vinyl acetate are included, mostly for comparison purposes. The structure of the leaving/reinitiating group of the xanthate mediating agent was tuned to match the monomer reactivity. This was achieved by studying the initialization behaviour of monomer-xanthate systems via in situ 1H-NMR spectroscopy. Additionally, the latter technique was valuable to identify side reactions affecting the monomer, xanthate and/or polymeric species. Subsequently, experimental conditions were defined, and used to optimize the level of control achieved during polymerization. Block copolymers were prepared from a xanthate end-functional poly(ethylene glycol) with both vinyl acetate and N-vinylpyrrolidone. Finally, the preparation of poly(N-vinylpyrrolidone) with a range of well-defined end groups was achieved via postpolymerization treatment of the xanthate end-functional polymerization product. 3 different routes were investigated, which lead to poly(N-vinylpyrrolidone) with 1) aldehyde or alcohol, 2) thiol or 3) unsaturated ω-chain-end functionality, in high yield, while the α-chain-end functionality is defined by the structure of the xanthate leaving group. The ω-aldehyde end-functional poly(N-vinylpyrrolidone) was successfully conjugated to the lysine residues of the model protein lysozyme via reductive amination. Particular attention was drawn to characterizing the polymerization products. NMR spectroscopy, liquid chromatographic and mass-spectroscopic techniques were used. The major achievements emerging from polymer analysis carried out in this study included the following: - a library of NMR chemical shifts for N-vinylpyrrolidone derivatives; - an estimation of the critical conditions for poly(N-vinylpyrrolidone) relevant for separation according to the polymer chain-ends; - conditions for the separation of block-copolymers comprising a poly(ethylene glycol) segment and a poly(N-vinylpyrrolidone) or poly(vinyl acetate) segment via liquid chromatography; - valuable results on matrix-assisted laser ionization-desorption time-of-flight mass spectroscopy (MALDI-ToF-MS) of poly(N-vinylpyrrolidone).

Living polymerization

N-vinylpyrrolidone

Raft

Xanthtate

Dissertations -- Polymer science

Theses -- Polymer science

Vinyl polymers

Addition polymerization

Tailored glycopolymers

Ramiah, Vernon

12 1900

Thesis (PhD (Chemistry and Polymer Science))--Stellenbosch University, 2008. / The synthesis of glycopolymers with various comonomers as prepared via the RAFT process is investigated. The macro-RAFT agent poly(3-O-methacryloyl-1,2:5,6-di-O-isopropylidene-D-glucofuranose) (PMAlpGlc) was prepared by polymerization of the glycomonomer with cumyl phenyl dithioacetate as the chain transfer agent. Chain extension with styrene or methyl acrylate or acrylic acid afforded novel diblock copolymers, (PMAlGlc-b-poly[styrene] or PMAGlc-b-poly[methyl acrylate] or PMAlGlc-b-poly[acrylic acid]), with predetermined molecular weights and narrow molecular weight distributions. The poly(acrylic acid) based glycopolymer was used to modify the surface of CaCO3, forming what will be referred to as a ‘sugar-coated CaCO3’ particle. This surface modifying effect was evaluated in depth; a schematic study of the effect of reaction temperature, pH, reaction time and glycopolymer concentration on CaCO3 crystallization was carried out. The analytical techniques Thermal Gravimetric Analysis (TGA) and Scanning Electron Microscopy (SEM) were used to verify that these ‘sugar-coated CaCO3’ particles have an increased adherence to cellulose compared to ‘non sugar-coated’ particles. A series of polymer configurations comprising various ratios of glycomoiety to poly(acrylic acid) was prepared. The effect of this polymer series on CaCO3 crystallization was evaluated and the ideal polymer configuration and its optimum synthesis conditions (i.e. reaction pH, temperature, time and polymer concentration) that gave maximum adherence of the ‘sugar-coated CaCO3’ particle onto cellulose were identified. The ability of these poly(acrylic acid) based glycopolymers to increase the interaction between CaCO3 and cellulose was then evaluated. This was done by simply mixing all three substrates, i.e. glycopolymer, cellulose and CaCO3 together. Analysis by TGA, SEM and Thin Layer Chromatography (TLC) revealed both the ideal polymer configuration that favoured increased adherence of the CaCO3 to cellulose and the optimum reaction conditions required for application and testing. In addition to studying the interaction between cellulose and CaCO3, the amphiphilic nature of the glycopolymers was determined. Transmission Electron Microscopy (TEM) confirmed that coreshell particles were prepared and that these particles are solvent exchangeable (in the case of styrene and methyl acrylate glyco-blocks) or pH exchangeable (in the case of acrylic acid glyco-blocks).

Glycopolymers

RAFT polymerization

Paper-industry

Calcium carbonate

Dissertations -- Polymer science

Theses -- Polymer science

Synthesis, characterization and testing of nano-structured particles for effective impact modification of glassy amorphous polymers

Van Zyl, A. J. P. (Andries Jakobus Petrus)

12 1900

Thesis (PhD)--Stellenbosch University, 2003. / ENGLISH ABSTRACT: The synthesis of structured nanoparticles, in particular core/shells, IS of great technological and economical importance to modem materials science. One of the advantages of structured particles is that they can be synthesized with either a solid core (albeit soft or hard) or a liquid core (of varying viscosity). This adds to the versatility of structured particles and their relevance to a majority of industrial and commercial endapplications. The synthesis of core/shell particles with liquid cores was investigated for the effective impact modification of glassy amorphous polymers. Polybutyl acrylate was chosen as the shell due to its rubbery nature. Hexadecane functioned as the core oil and facilitated osmotic stability by being a suitable hydrophobe for the miniemulsion synthesis. Polymer synthesis was preceded by the prediction of particle morphology by using thermodynamic prediction models. Core/shell particles with liquid cores were synthesized via miniemulsion polymerization. This resulted in the direct introduction of core-oil and monomer into the miniemulsion droplets. Polymerization was achieved in situ, resulting in the formation of particles with the desired morphology. For additional strength, stability and matrix mixing capabilities, methyl methacrylate (MMA) was grafted onto the initial core/shell particles. The obtained morphology was in contradiction with the predicted morphology, thus pointing to strong kinetic influences during the polymerization process. These influences could be attributed to surface anchoring of polymer chains due to the initiator (KPS) used, the establishment of the polymerization locus as well as the increase in viscosity at the polymerization locus. To test these influences a surface-inactive initiating species (AIBN) and an interfacial redox initiating species (cumyl hydroperoxide/Fe/") were used. Use of the former resulted in the formation of solid polymer particles due to homogeneous polymerization throughout the droplet, thus leading to an inverse core/shell morphology as a result of thermodynamic considerations. The redox initiator promoted kinetic influences as a result of fast polymerization kinetics at the droplet/water interface. This, as well as the increase in viscosity, facilitated the production of core/shell particles. To obtain core/shell particles with the desired size, the influence of surfactant concentration was investigated. Capillary hydrodynamic fractionation (CHDF) was used to determine the particle size of the initial core/shell particles as well as the size of the MMA-grafted core/shell particles. The area stabilized per surfactant molecule was calculated stoichiometrically and compared to "classical" miniemulsion results, i.e. data generated from the synthesis of polymeric latexes in the presence of a hydrophobe, but at a much lower hydrophobe:monomer ratio than was used here. The influence of methanol as well as the possibility of scaling-up the process was also investigated. The study was further expanded to the investigation of living miniemulsion polymerization techniques to control the molecular architecture of synthesized core/shell latexes. The influence of different RAFT agents, initiators and monomers were investigated on the core/shell formation properties of the investigated systems. The combined effects of establishing the polymerization locus as well as increased polymerization kinetics, thus increasing the viscosity at the polymerization locus, lead to the successful formation of liquid- filled core/shell particles. To conclude, the ability of the synthesized core/shell particles to induce impact modification in glassy amorphous polymers was investigated. Results showed that incorporation of these particles could effectively modify the intrinsic properties of the investigated polymers, resulting in a brittle-to-ductile transition. Improved impact results of the investigated glassy matrix were obtained. Keywords: core/shell, liquid-filled, RAFT, miniemulsion, impact modification / AFRIKAANSE OPSOMMING: Die sintese van gestruktureerde nano-partikels, meer spesifiek kern/skil partikels, is van onskatbare tegnologiese en ekonomiese belang vir moderne materiaalkunde. Een van die voordele van hierdie tipe partikels is dat sintese kan geskied met 'n soliede kern (hard of sag) of vloeistofkern (met wisselende viskositeit). Dit dra by tot die veelsydigheid van gestruktureerde partikels en dus tot grootskaalse aanwending in industriële en kommersiële toepassings. Die sintese van kern/skiI partikels met vloeistofkerne is ondersoek met die oog op effektiewe slagsterkte modifikasie van glasagtige amorfe polimere. Polibutielakrilaat is gekies as skil-polimeer op grond van sy rubberige voorkoms. Heksadekaan moes funksioneer as die kern-olie, maar het ook bykomende osmotiese stabiliteit verleen tydens die miniemulsie-polimerisasie proses. Dit is as gevolg van die gepaste hidrofobiese eienskappe van heksadekaan. Polimeer sintese is voorafgegaan deur die voorspelling van partikel morfologie met behulp van termodinamies gebaseerde voorspellingsmodelle. Kern/skil partikels is gesintetiseer deur middel van 'n miniemulsie-polimerisasie reaksie wat die direkte inkorporering van kern-olie en monomeer in die miniemulsiedruppel teweeg bring. Polimerisasie vind in situ (lat. vir in die oorspronklike plek, m.a.w. binne-in die druppel) plaas en lei tot die vorming van partikels met die gewenste morfologie. Metielmetakrilaat is ge-ent op die oorspronklike kern/skil partikels om addisionele sterkte, stabiliteit en vermenging met die matriks polimeer te bewerkstellig. Die verkrygde morfologie is teenstrydig met die voorspelde morfologie, wat dus die teenwoordigheid van sterk kinetiese invloede aandui. Hierdie invloede kan toegeskryf word aan die oppervlak-aktiewe afsetter (KPS, kaliumpersulfaat) wat gebruik is, die daarstelling van die polimerisasie lokus asook die toename in viskositeit by die lokus van polimerisasie. Om hierdie invloede te toets is 'n oppervlak-onaktiewe afsetter (AIBN, asobisisobutironitriel) en intervlak redoks-afsetter (kumielhidroperoksied/Pe'") gebruik. Gebruik van eersgenoemde het die vorming van soliede partikels teweeg gebring. Dit is as gevolg van homogene polimerisasie in die druppel en dus die ontstaan van omgekeerde kern/skiI partikels weens termodinamiese oorwegings. Die redoks-afsetter het egter die kinetiese oorwegings bevoordeel as gevolg van vinnige polimerisasiekinetika by die druppel/water intervlak. Dit, tesame met die toename in viskositeit, maak die produksie van kern/skil partikels moontlik. Vir die verkryging van kern/skiI partikels met die gewenste partikelgrootte is die invloed van die seep konsentrasie ondersoek. CHDF (eng. capillary hydrodynamic fractionation) is gebruik om die partikelgrootte van die oorspronklike kern/skiI partikels, sowel as dié ge-ent met metielmetakrilaat, te bepaal. Die area gestabiliseer per seepmolekule is bereken d.m.v. stoichiometrie en vergelyk met "klassieke" miniemuisie data, d.i. data verkry deur die sintese van latekse in die teenwoordigheid van 'n hidrofoob, maar teen 'n baie laer hidrofoob:monomeer-verhouding as wat hier gebruik is. Die invloed van metanol, asook die moontlikheid om die reaksie op te skaal, is ondersoek. Die studie is verder uitgebrei om die invloed van lewende miniemulsie-polimerisasie tegnieke in te sluit, om sodoende beheer uit te oefen oor die molekulêre argitektuur van die gesintetiseerde latekse. Die invloed van verskeie RAFT (eng. reversible additionfragmentation chain transfer) agente, afsetters en monomere op die kern/skiI vormingsmoontlikhede van die bestudeerde stelsels, is ondersoek. Die gesamentlike effek van die daarstelling van die polimerisasie lokus en dus die verhoging van die viskositeit by die lokus, lei tot die suksesvolle vorming van vloeistof-gevulde kern/skiI partikels. Laastens is die invloed van die gesintetiseerde kern/skil partikels op die slagsterkte van glasagtige amorfe polimere ondersoek. Resultate dui daarop dat die insluiting van hierdie partikels kan lei tot die effektiewe verandering van die intrinsieke eienskappe van die bestudeerde polimere, en dus 'n oorgang van bros na rekbaar kan veroorsaak. 'n Verbetering in die slagsterkte resultate van die bestudeerde glasagtigte matriks is ook waargeneem.

Polymers

Nanostructured materials

RAFT

Miniemulsion

Impact modification

Core/shell

Dissertations -- Polymer science

Theses -- Polymer science

Biomimetic Polymer Systems via RAFT Polymerization - Routes to High-Performance Materials

Hendrich, Michael

02 December 2016

No description available.

540

Biomimetic Polymers

Spider Dragline Silk

RAFT Polymerization

Mechanical Properties

Chemie  (PPN62138352X)

Optimisation des propriétés émissives du BODIPY en phase condensée par modulation de la nature des substituants / Optimization of the fluorescence properties of BODIPY derivatives by tuning the nature of the substituants

Vu, Thanh-Truc

12 July 2011

Une investigation des propriétés d’émission de fluorescence à l’état condensé a été effectuée sur des dérivés encombrés du Boron DIPYrromethene (BODIPY). L’objectif est de déterminer la nature de l’encombrement stérique afin d’optimiser l’efficacité d’émission en minimisant les interactions intermoléculaires. L’étude en films de PMMA du 3,5-di-adamantane, 8-mésityle BODIPY a mis en évidence la formation prépondérante d’agrégats H et celle de dimères J, dont le rendement quantique de fluorescence n’est diminué que d’un facteur 5 par rapport à la molécule non agrégée. Une deuxième étude spectroscopique en films évaporés a également été effectuée sur une série de quatre dérivés substitués sur les positions 3 et 5 par des groupements [2.2]paracyclophane et sur les positions 2 et 6 par les groupements respectifs : propyle, éthyle, méthyle et H (BODIPY H-, Alkyl-PcP). L’absence de substitution sur les positions 2 et 6 favorise la formation des agrégats H tandis que la présence d’une chaîne alkyle conduit à la formation prépondérante d’agrégats J. La mesure des rendements quantiques relatifs ainsi que l’analyse des images de fluorescence résolues en temps démontrent une augmentation de l’efficacité d’émission et de la durée de vie de fluorescence de la phase solide lorsque la chaîne alkyle s’allonge. Les composés BODIPY Et-PcP et Pr-PcP présentent tous deux une émission de fluorescence supérieure à un dérivé non encombré. Enfin, une étude préliminaire des phases solides de dérivés BODIPY substitués par des groupements insaturés planaires (benzothiophène, p-bromo-diphényle) a été menée afin d’étudier l’influence de la géométrie des substituants. La synthèse de l’ensemble des résultats permet de conclure que les substituants insaturés planaires ne conduisent pas systématiquement à une perte du rendement quantique de fluorescence à l’état solide, en comparaison aux substituants saturés et insaturés sphériques. Deux méthodes d’élaboration de particules ont été explorées : la première consiste à greffer des dérivés d’aza-BODIPY sur des billes de polystyrène afin d’obtenir des particules sondes de pH - la deuxième approche repose sur la polymérisation d’un dérivé BODIPY selon la méthode RAFT suivie de la formulation du polymère amphiphile obtenu en micelles de taille nanométrique. Ces particules offrent la possibilité d’une post-fonctionnalisation permettant d’élaborer des capteurs. / Fluorescence properties of Boron DIPYromethene derivatives (BODIPY) bearing bulky moieties are studied in condensed state in order to frame the nature of the substituents that would give the best emission efficiency. 3,5-bis-adamantane 8-mesityl BODIPY derivative shows a preponderant formation of H aggregates as well as J dimers, which fluorescence quantum yield is up to only about 5 times less than the monomer. Spectroscopic properties in solid state have also been studied on a set of four BODIPY derivatives substituted by [2.2]paracyclophane (PcP) on positions 3 and 5 on one hand, respectively H, methyl, ethyl and propyl on positions 2 and 6 on the other hand (BODIPY H-, Alkyl-PcP). BODIPY H-PcP shows aggregation preferentially in H type whereas substitution by an alkyl chain in position 2 and 6 favours the formation of J aggregates. The longer is the alkyl chain the more the BODIPY derivative emits, according to the measurement of relative quantum yield and the analysis of fluorescence lifetime imaging data. Both BODIPY Et-PcP and Pr-PcP show better emission efficiency than a non hindered BODIPY derivative. Preliminary work on derivatives bearing benzothiophene and p-Bromo-bisphenyl moieties on positions 3 and 5 supports the conclusion that unsaturated and planar substituents do not necessarily lead to more &#960--&#960- stacking, responsible for fluorescence quenching in solid state, compared to alkyl substituents or unsaturated and spherical substituents (Ad, PcP). Particles have also been obtained through two different approaches : the first one consists in fonctionnalizing aza-BODIPY derivatives on polystyrene beads in order to build a pH sensor - in the second one, a BODIPY derivative is polymerized according to RAFT method to give an amphiphilic polymer which is then reorganized into micelles. Those particles can be easily post-functionnalized to give a broad range of sensors.

BODIPY

Fluorescence

État condensé

Encombrement stérique

Sonde pH

RAFT

BODI¨Y

Fluorescence

Copolymérisation radicalaire réticulante contrôlée : application à la synthèse de nanogels en présence de xanthates et modélisation

Poly, Julien

17 November 2008

Les nanogels sont des macromolécules ramifiées solubles possédant une structure en réseau et de dimensions inférieures à 100 nm. La méthodologie récente de la copolymérisation radicalaire réticulante contrôlée permet d'accéder à de telles architectures polymères tout en contrôlant finement leur structure interne. Nous présentons dans ce travail: (i) l'étude préalable de systèmes modèles, permettant de dégager les conditions nécessaires à la synthèse de nanogels; (ii) l'application à la synthèse de nanogels hydrophiles valorisables de poly(alcool vinylique) et de poly(N-vinylpyrrolidone); (iii) une modélisation cinétique permettant de rendre compte des tendances observées expérimentalement et de prévoir les grandeurs caractéristiques de produits synthétisés par cette méthodologie. / Abstract

Nanogel

Raft

Ramification

Modélisation

Polymérisation radicalaire contrôlée

Microgel

Xanthate

Copolymérisation réticulante

Madix

Réticulation

Nanogel

A Management Study of the Idaho-Utah Interstate Deer Herd With Special Reference to the Sublett, Black Pine, and East Raft River Mountain Unit

Diem, Kenneth L.

01 May 1952

Extensive deer migrations have been observed for many, years in western mountain regions. More recently several complex interstate migrations have become the objects of careful study and the subjects of special wildlife movement programs. The interstate deer migrations between the Sublett-Black Pine, Idaho, areas and the East Raft River Mountain, Utah, area are not exceptional. These migrations are now of such a magnitude that they are creating management problems of increasing importance to the 2 states involved.

Management

Idaho-Utah

Interstate deer

deer herd

deer

Sublett

Black Pine

East Raft River

Animal Sciences