Alabi
Akinleye Alabi, Cambridge, MA US
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20130158021 | AMINO ACID-, PEPTIDE-AND POLYPEPTIDE-LIPIDS, ISOMERS, COMPOSITIONS, AND USES THEREOF - Described herein are compounds and compositions characterized, in certain embodiments, by conjugation of various groups, such as lipophilic groups, to an amino or amide group of an amino acid, a linear or cyclic peptide, a linear or cyclic polypeptide, or structural isomer thereof, to provide compounds of the present invention, collectively referred to herein as “APPLs”. Such APPLs are deemed useful for a variety of applications, such as, for example, improved nucleotide delivery. Exemplary APPLs include, but are not limited to, compounds of Formula (I), (II), (III), (IV), (V), and (VI), and salts thereof, as described herein: | 06-20-2013 |
20130209448 | Carrier Nanoparticles and Related Compositions, Methods and Systems - Carrier nanoparticles comprising a polymer containing a polyol coupled to a polymer containing a boronic acid, configured to present the polymer containing a boronic acid to an environment external to the nanoparticle and related compositions, methods and systems. | 08-15-2013 |
20150031832 | CARRIER NANOPARTICLES AND RELATED COMPOSITIONS, METHODS AND SYSTEMS - Carrier nanoparticles comprising a polymer containing a polyol coupled to a polymer containing a boronic acid, configured to present the polymer containing a boronic acid to an environment external to the nanoparticle and related compositions, methods and systems. | 01-29-2015 |
20150322207 | CARRIER NANOPARTICLES AND RELATED COMPOSITIONS, METHODS AND SYSTEMS - Carrier nanoparticles comprising a polymer containing a polyol coupled to a polymer containing a boronic acid, configured to present the polymer containing a boronic acid to an environment external to the nanoparticle and related compositions, methods and systems. | 11-12-2015 |
Akinleye C. Alabi, Pasadena, CA US
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20090214755 | CLICK CHEMISTRY SURFACE FUNCTIONALIZATION FOR RESONANT MICRO-CAVITY SENSORS - Micro-cavity resonant sensors have outer surfaces that are functionalized using click chemistry, e.g., involving a cycloaddition reaction of an alkyne functional group and an azide functional group. A first polymer linking element binds to an outer surface of the micro-cavity and has an azide functional group, which bonds to an alkyne functional group of a second polymer linking element as a result of a cycloaddition reaction. A functionalization element such as an antibody, antigen or protein for sensing a target molecule is bound to the second linking element. | 08-27-2009 |
20120107177 | CLICK CHEMISTRY SURFACE FUNCTIONALIZATION FOR RESONANT MICRO-CAVITY SENSORS - Micro-cavity resonant sensors have outer surfaces that are functionalized using click chemistry, e.g., involving a cycloaddition reaction of an alkyne functional group and an azide functional group. A first polymer linking element binds to an outer surface of the micro-cavity and has an azide functional group, which bonds to an alkyne functional group of a second polymer linking element as a result of a cycloaddition reaction. A functionalization element such as an antibody, antigen or protein for sensing a target molecule is bound to the second linking element. | 05-03-2012 |
Akinleye C. Alabi, Cambridge, MA US
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20140329884 | 1,3,5-TRIAZINANE-2,4,6-TRIONE DERIVATIVES AND USES THEREOF - The present invention provides novel 1,3,5-triazinane-2,4,6-trione derivatives, such as compounds of any one of Formulae (I) and (II), and salts thereof, and methods of preparing the compounds. Also provided are compositions including a compound of the invention and an agent (e.g., an siRNA, mRNA, or plasmid DNA). The present invention also provides methods and kits using the compositions for delivering an agent to a subject (e.g., to the liver, spleen, or lung of the subject) or cell and for treating and/or preventing a range of diseases, such as genetic diseases, proliferative diseases, hematological diseases, neurological diseases, liver diseases, and lung diseases. | 11-06-2014 |
Bola T. Alabi US
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20150232646 | THERMOFORMABLE MICROSPHERE ARTICLES - There is provided an article comprising at least a first surface having a first binder layer selected from at least one of linear resins and resins having low cross link densities, where the first binder layer has a first major surface opposite a second major surface; and a plurality of microspheres at least partially embedded in the first major surface of the first binder layer. For at least a portion of the first major surface, the plurality of micro spheres may cover 30% to 50% of that portion, and the microspheres may be substantially uniformly spaced. | 08-20-2015 |
Bola T. Alabi, Woodbury, MN US
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20150232646 | THERMOFORMABLE MICROSPHERE ARTICLES - There is provided an article comprising at least a first surface having a first binder layer selected from at least one of linear resins and resins having low cross link densities, where the first binder layer has a first major surface opposite a second major surface; and a plurality of microspheres at least partially embedded in the first major surface of the first binder layer. For at least a portion of the first major surface, the plurality of micro spheres may cover 30% to 50% of that portion, and the microspheres may be substantially uniformly spaced. | 08-20-2015 |
Christopher Akinleye Alabi, Ithaca, NY US
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20160075831 | SEQUENCE-DEFINED POLYMERS AND METHODS OF MAKING SAME AND USING SAME - Methods of making sequence-defined polymers and sequence-defined polymers. The methods are based on the orthogonal reactivity of monomers having at least two different functional groups. The sequence-defined polymers can be used in various applications. For example, the SDPs (e.g., pH sensitive SDPs) are used in cell lysis methods or as molecular vehicles to transport drug cargo into cells. | 03-17-2016 |
Tomiwa Alabi, San Francisco, CA US
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20150350147 | DISPLAYING INTERACTIVE NOTIFICATIONS ON TOUCH SENSITIVE DEVICES - Methods and devices display an interactive notification element at an electronic device. The method comprises detecting an occurrence of an event associated with an application. In response to detecting the occurrence of the event, a notification element is displayed. A user of the device inputs a sequence of one or more gestures to reveal actions he can take in response to the notification element. The device then displays a plurality of action option UI elements, the selection of each action option UI element causing the application to perform a different action. | 12-03-2015 |