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Jongewaard
Almoi Nyls Jongewaard, Castro Valley, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110266675 | DIRECTIONAL SELF-ASSEMBLY OF BIOLOGICAL ELECTRICAL INTERCONNECTS - A method for controlled nucleation and growth of microtubules on substrates. The substrate is functionalized with a nucleating agent for microtubule growth. The method can be employed to generate nanoscale structures on substrates or between substrates by additional attachment of MT capture agents which function to capture the ends of growing MT to form connecting MT structures. The method can be used to form 2-and 3-D structures on or between substrates and can function to establish interconnects between nanoscale devices or molecular electronic devices and electrodes. A specific method for metallization of biological macromolecules and structures is provided which can be applied to metallized the MT formed by the growth and capture method. The metallization method is biologically benign and is particularly useful for copper metallization of MTs. | 11-03-2011 |
Ian N. Jongewaard, Tucson, AZ US
| Patent application number | Description | Published |
|---|---|---|
| 20110266675 | DIRECTIONAL SELF-ASSEMBLY OF BIOLOGICAL ELECTRICAL INTERCONNECTS - A method for controlled nucleation and growth of microtubules on substrates. The substrate is functionalized with a nucleating agent for microtubule growth. The method can be employed to generate nanoscale structures on substrates or between substrates by additional attachment of MT capture agents which function to capture the ends of growing MT to form connecting MT structures. The method can be used to form 2-and 3-D structures on or between substrates and can function to establish interconnects between nanoscale devices or molecular electronic devices and electrodes. A specific method for metallization of biological macromolecules and structures is provided which can be applied to metallized the MT formed by the growth and capture method. The metallization method is biologically benign and is particularly useful for copper metallization of MTs. | 11-03-2011 |
Mark Jongewaard, Westminster, CO US
| Patent application number | Description | Published |
|---|---|---|
| 20110204261 | MICRO-CHANNEL-COOLED HIGH HEAT LOAD LIGHT EMITTING DEVICE - Micro-channel-cooled UV curing systems and components thereof are provided. According to one embodiment, a lamp head module includes an optical macro-reflector, an array of LEDs and a micro-channel cooler assembly. The array is positioned within the reflector and has a high fill factor and a high aspect ratio. The array provides a high irradiance output beam pattern having a peak irradiance of greater than 25 W/cm | 08-25-2011 |
Mark Paul Jongewaard, Arvada, CO US
| Patent application number | Description | Published |
|---|---|---|
| 20080205062 | MULTIPLE LIGHT-EMITTING ELEMENT HEAT PIPE ASSEMBLY - The present invention provides an optical device comprising one or more heat pipes with a desired level of thermal coupling with the light-emitting elements which are positioned along a periphery of the evaporator surface portion of the heat pipe in such a way that they are thermally coupled to the heat pipe. In one embodiment, the heat pipe of the present invention can be readily integrated with optical elements such as reflectors or collimators. | 08-28-2008 |
| 20090177155 | FLUID INJECTION SYSTEM AND PRESSURE JACKET ASSEMBLY WITH SYRINGE ILLUMINATION - The fluid injection apparatus for use with a syringe includes an injector and a pressure jacket assembly associated with the injector. The injector includes a housing defining a central opening and a drive piston extendable through the central opening for imparting motive forces to a syringe plunger disposed within the syringe. The pressure jacket assembly includes a pressure jacket and at least one support arm associated with and extending outward from the housing. A syringe retaining member is attached to the at least one support arm. The syringe-retaining member defines a syringe receiving slot for receiving at least a portion of the syringe. A light source is located on the support arm and faces the pressure jacket for illuminating the syringe. | 07-09-2009 |