Patent application number | Description | Published |
20090252635 | Process For Producing Sintered Porous Materials - The invention provides a process of making porous structures or materials, including the colloidal processing (e.g. slip casting, pressure casting, tape casting or electrophoretic deposition) of solid particle emulsions to form a green body that can be directly sintered without a de-binding step. | 10-08-2009 |
20100074787 | PROCESS FOR PRODUCING SINTERED POROUS MATERIALS - The invention provides a process of making porous structures or materials, including the colloidal processing (e.g. slip casting, pressure casting, tape casting or electrophoretic deposition) of solid particle emulsions to form a green body that can be directly sintered without a de-binding step. | 03-25-2010 |
20100210073 | Method for Encapsulating a Device in a Microcavity - Manufacturing a semiconductor device involves forming ( | 08-19-2010 |
20100233009 | PROCESS FOR PRODUCING SINTERED POROUS MATERIALS - The invention provides a process of making porous structures or materials, including the colloidal processing (e.g. slip casting, pressure casting, tape casting or electrophoretic deposition) of solid particle emulsions to form a green body that can be directly sintered without a de-binding step. | 09-16-2010 |
20110139617 | FUNCTIONAL LAYERS OF BIOMOLECULES AND LIVING CELLS, AND A NOVEL SYSTEM TO PRODUCE SUCH - The present invention concerns a new process for depositing a thick compact layer of biomolecules for instance such a layer with thickness in the μm scale and, for depositing a thick compact layer of cells in the μm scale. The deposited layer is made by application of an unbalanced (asymmetrical) alternating voltage polarization between two electrodes to a dissolved biomolecule or cell from low conductivity solutions. The process allows the rapid manufacturing of sensors and the coating of devices with functional cells and biomolecules. Examples are provided on the preparation of functional sensors such as a glucose, a lactose sensor, a hydrogen peroxide sensor and a glutamate sensor. Examples are also provided on the deposition of eukaryoric cells such as | 06-16-2011 |
20110168558 | AQUEOUS ELECTROPHORETIC DEPOSITION - From an environmental, safety and economic perspective water should be the solvent of choice for electrophoretic deposition under industrial circumstances. However, because of the electrolytic decomposition of water, the majority of EPD is carried out in non-aqueous solvents. | 07-14-2011 |
20110266504 | DEPOSITION FROM IONIC LIQUIDS - A method to electrodeposit or electroless deposit material onto substrates from ionic liquids in vacuum or in a protective atmosphere after exposing the ionic liquid to vacuum and the resulting material. According to the invention, dense layers, free of unwanted components, can be produced in vacuum or in a protective atmosphere after exposing the ionic liquid to vacuum. | 11-03-2011 |
20130228465 | COMPOSITES OF CARBON BLACK AND METAL - Nano-sized particles of carbon black and various metal ions are mixed to form substantially homogenous solutions or dispersions. The nano-sized particles of carbon black and metal ions are electroplated on various types of substrates as composites of one or more metals and substantially uniformly dispersed nano-sized particles of carbon black within the metals. | 09-05-2013 |