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Bio Analysis |
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| 1. | Aggregation of peptides | Assessment of the aggregation in dependence on time and concentration by determination of the molecular weight distribution with SLS/UV |
| 2. | Alginates | Determination of the molecular weight with SLS/RI |
| 3. | Blood/Contrast media | Determination of the detection limit of X-ray contrast media and comparison with real samples |
| 4. | Blood samples (proteins/factors) | Examination of cell culture projection concerning the expression of recombinated coagulating factor FVIII |
| 5. | Bulk of E-Coli | Identification of an antigen in different E-coli strains |
| 6. | Carboxymethyl-cellulose | Determination of the molecular weight by SLS/RI |
| 7. | Carrageenan | Examination of i-carrageenan by comparison of the molar masses in different concentrations |
| 8. | Carrageenan | Determination of the molar masses of different samples |
| 9. | Cellulosesulfate | Determination of the molar mass by SLS/RI |
| 10. | Chitosan | Determination of the molar mass by SLS/RI |
| 11. | Dextrane/Pullulane | |
| 12. | Debranched Starch | |
| 13. | Fermenter sample | Determination of the particle size distribution of virale particles and proteins |
| 14. | Hemoglobin | |
| 15. | High-molecular proteins | Determination of the molar mass by SLS/UV |
| 16. | HSA | Determination of the molar mass by SLS/RI/UV |
| 17. | Human and dog urine | Characterization with UV detection |
| 18. | Humane cell protein | |
| 19. | Hydrolysed proteine preparations | Quantification of single preparations in a shampoo |
| 20. | Hydroxyethyl-Starch | Determination of the molar mass by SLS/RI |
| 21. | Coffee extract | Characterization of extracts with SLS/DLS/UV in different eluents |
| 22. | Liposomes | Identification of liposomes besides proteins |
| 23. | Pectin | Determination of the molar mass by SLS/RI |
| 24. | Extracts of plants | Characterization with UV detection |
| 25. | Plant sample (Polysaccharides) | Determination of the molar mass by SLS/R |
| 26. | Polymerised pig hemoglobin | Characterization with UV detection |
| 27. | Polysaccharides | Determination of the molar mass by SLS/RI |
| 28. | Proteines and antibodies | Characterization and determination of the molar mass with SLS/UV |
| 29. | Proteine mixtures | Characterization of protein hydrolysates and -aggregates with SLS/RI/UV |
| 30. | Proteine standards | Separation of Myoglobin, BSA (Mono- u. Dimer) and Ferritin (Mono- u. Dimer) |
| 31. | Extract of rhubarb root | Solvent test |
| 32. | Textile proteine with standard | Determination of the molar mass before and after filtration of the sample |
| 33. | Viruses | Determination of the sizes with SLS/DLS and UV |
| 34. | Viruses and proteines | Identification of viruses of a fermenter sample in different concentrations |
| 35. | Polyglutamic acid | Determination of the molar mass of low-molecular polyglutamin acid with LS |
| 36. | RNA mixture and crude RNA sample | Separation with high temperature AF4 |
| 37. | BSA | Separation of the monomer to trimer by AF2000/UV |
| 38. | Ferritin | Separation of the monomer to trimer by AF2000/UV |
| Polymer Analysis | ||
| 1. | High-molecular Polymermicelles | Determination of the molar mass and the particle size with SLS/DLS und UV |
| 2. | Rubber | Determination of the molar mass and the particle size with SLS/DLS, RI und UV |
| 3. | Rubber | Separation of different rubber samples |
| 4. | Latex samples (bimodal) | |
| 5. | MEH-PPV and PFO | Determination of the molar mass with GPC/SLS/UV |
| 6. | Natural rubber | Determination of the molar mass with SLS/RI |
| 7. | Polyacryl latex | |
| 8. | Polybutadiene latex | Determination of the particle size with SLS/DLS and UV |
| 9. | Polybutylacrylat | |
| 10. | Polybutylacrylat latex | |
| 11. | Polycarbonate | Determination of the molar mass of cross-linked/branched polycarbonate |
| 12. | Polymer modified bitumen | Determination of the molar mass with SLS/UV |
| 13. | Polystyrene | Determination of the molar mass by calibration |
| 14. | Polystyrene latex | Separation of five standards from 54 to 343 nm |
| 15. | Polystyrene sulfonate | Separation of low-molecular polystyrenesulfonate standards |
| 16. | Proteine loaded latex samples | |
| 17. | Synthetic and natural rubber | Determination of the molar mass with SLS/RI |
| 18. | Water dispersion of polyurethane | Determination of the molar mass with SLS/RI |
| 19. | cationic electrolyte | |
| 20. | cationic polymer with DNA | Determination of the molar mass and the radii with SLS/DLS and UV |
| 21. | Viscous Liquids | Characterization of polymer samples concerning the viscosity/gel formation; Determination of the molar mass and the radii with SLS/DLS and RI |
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Particle Analysis |
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| 1. | Iodipamid | Determination of the size distribution with MALS |
| 2. | Boehmite | |
| 3. | Colloidal Gold | Determination of the radius with DLS |
| 4. | Gold particles | Analysis with UV detection |
| 5. | PMMA latex particle | Determination of the particle sizes with SLS/DLS |
| 6. | Polystyrene particles | Determination of the particle sizes with SLS/DLS and UV |
| 7. | Proteine loaded latex samples | |
| 8. | Carbon black | Determination of the size of the aggregates with SLS/DLS |
| 9. | Fume samples | Batch measurements |
| 10. | Silica | |
| 11. | SiO2 particles | Determination of the particle sizes with SLS/DLS |
| 12. | Streptavidin | BatchDLS |
| 13. | Proteine particles | Determination of the molar mass and the particles size with SLS/DLS, RI and UV of two samples and a mixture of them |
| 14. | Fructosepolymer/-particle | Determination of the radii with SLS/DLS and RI before and after sonicating and heating of the sample |
| 15. | Emulsions | Determination of the sizes of O/W emulsions by calibration |
| Environmental Analysis | ||
1. |
Ground water sample | Characterization by UV detection and collection of the fractions |
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