Biopolymers
Biopolymers
| # | Description | Download |
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| 1 | Multi-Angle Light Scattering - DNA characterized by a DAWN DSP that shows remarkable agreement with the theoretical value! |
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| 2 | Heparins: Low molecular weight heparins used as anticoagulants |
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| 3 | Critical Phenomenon Experiment--A Nobel-prize winning experiment is repeated using the DAWN EOS' superb temperature-control capabilities to show the temperature at which cloud point transition occurs. |
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| 4 | Dn/Dc determinations with an Optilab |
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| 5 | Cellulose in DMAC! |
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| 6 | Lignins--The definitive application note on working with lignins! Only with a multi-angle light scattering instrument can detectors be fit with interference filters. | |
| 7 | Chitosans--Chitin is one of the most abundant biopolymers on earth, and forms the major polymer in the exoskeleton of marine arthropods. It is used in everything from water treatment applications to photographic emulsions, yet its characterization can be problematic...except when analyzed with a DAWN! | |
| 8 | Starches analyzed in a batch and microbatch mode of very high molar mass. |
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| 9 | Polysaccharides--Hyaluronic Acid |
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| 10 | Multi-Angle Light Scattering - Sodium Alginates before and after irradiation | |
| 11 | Agarose is a polysaccharide produced from seaweed that forms a gel at room temperature. In this application note we examine the differences in agarose characterized at elevated temperatures. | |
| 12 | Chondroitin sulfate is a naturally-occurring biopolymer whose molecular weight influences its therapeutic effectiveness | |
| 13 | Aloe extracts, obtained from the Aloe vera plant, have found many uses in cosmetics and pharmaceuticals. Producers of aloe believe that the molar mass and its distribution contribute to its efficacy. In this application note, two aloe products are characterized. | |
| 14 | Bacterial Endotoxin Interaction with Human Plasma Proteins |
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| 15 | In the developing field of gene therapy, recombinant adenovirus has been used as one of the most successful means of delivering genes of interest into target cells. Here, we characterize these particles using an Eclipse coupled to a DAWN. | |
| 16 | Acidified Proteins + Amylopectin |
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| 17 | Critical Micelle Concentration |
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| 18 | Multi-Angle Light Scattering - Self-aggregation of Gelation | |
| 19 | Multi-Angle Light Scattering - Polyvalent Pneumococcal Polysaccharide Vaccine (PNEUMOVAX®23) | |
| 20 | Polysulphide Pulping on Softwood Polysaccharides |
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| 21 | Electron Beam Irradiation & Cellulose Depolymerization |
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| 22 | Multi-Angle Light Scattering - Isolation and Purification of Polysaccharides | |
| 23 | Multi-Angle Light Scattering - Vegetable Oil Polyols | |
| 24 | Light Scattering of Biopolymers in HFIP |
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| 25 | Molar Mass Changes in Salicylic Acid |
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| 26 | Biopolymer Degradation Monitoring |
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| 27 | Multi-Angle Light Scattering - Branching in High Molar Mass Synthetic Amyloses |
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| 28 | Multi-Angle Light Scattering - Hydroxyethylstarches (HES) |
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| 29 | Self Asembly for Lignin Biopolymers |
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Wyatt Technology is the world leader in providing the most advanced macromolecular and nanoparticle characterization tools. These instruments and software may be used to determine the absolute molecular weight and or size of macromolecules and nanoparticles and include: multi-angle light scattering, dynamic light scattering, high through-put dynamic light scattering, field flow fractionation, refractive index and viscometry detection.