Ilke
Ilke Akartuna, Cambridge, MA US
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20150298091 | SYSTEMS AND METHODS FOR BARCODING NUCLEIC ACIDS - The present invention generally relates to microfluidics and labeled nucleic acids. For example, certain aspects are generally directed to systems and methods for labeling nucleic acids within microfluidic droplets. In one set of embodiments, the nucleic acids may include “barcodes” or unique sequences that can be used to distinguish nucleic acids in a droplet from those in another droplet, for instance, even after the nucleic acids are pooled together. In some cases, the unique sequences may be incorporated into individual droplets using particles and attached to nucleic acids contained within the droplets (for example, released from lysed cells). In some cases, the barcodes may be used to distinguish tens, hundreds, or even thousands of nucleic acids, e.g., arising from different cells or other sources. | 10-22-2015 |
Ilke Inceoglu, Surrey GB
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20150072332 | TESTING SYSTEM - A testing system includes apparatus and methods of testing a subject according to a forced-choice scheme. The scheme is based on Thurstonian Item-Response. Theory and is particularly relevant to personality assessment. The invention provides dynamic test generation and scoring for efficient testing of subjects using unique tests. | 03-12-2015 |
Ilke Senol, Espoo FI
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20150259446 | METHOD OF POLYMERIZING OLEFINS IN SLURRY REACTORS - A process including polymerizing ethylene in the presence of a polymerization catalyst and hydrogen in a first polymerization reactor to produce a first slurry; withdrawing a first stream of the slurry from the first polymerization reactor; directing the slurry stream into a second polymerization reactor; polymerizing ethylene in the presence of the first ethylene polymer, the polymerization catalyst, and hydrogen in a second polymerization reactor to produce a second slurry; withdrawing from the second polymerization reactor a second slurry stream having a solids concentration higher than the average solids concentration of the second slurry within the second polymerization reactor; withdrawing from the second polymerization reactor a third slurry stream having a solids concentration lower than the average solids concentration of the second slurry within the second polymerization reactor; and directing at least a part of the second slurry stream into one of the first and second polymerization reactors. | 09-17-2015 |