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Ants
Ants Erm, Tallinn EE
| Patent application number | Description | Published |
|---|---|---|
| 20110083520 | Device for Taking Samples from the Bottom Boundary Layer of a Water Body - Devices using a winch are currently used for taking samples in the boundary layer formed at the bottom of a water basin. | 04-14-2011 |
Ants Löhmus, Estonia EE
| Patent application number | Description | Published |
|---|---|---|
| 20100183829 | METHOD FOR PREPARING OXIDE MATERIAL - In the current invention a method for the preparation of an oxide material was described that involves bringing the sol onto the substrate, the gelation of the solution and thermal treatment of the gel. Alkoxides are used as precursor materials for the sol preparation and substrate free structures are employed for the manufacturing of the oxide material. A gel film with thickness ranging from 5 nm to 1 μm is created onto the sol layer. The gelled film is separated into pieces by self organizing and the gelled part is disconnected from the substrate. Substrate free tubular structures with diameters ranging from 0.01-100 μm are formed of the gel film which are then heated at temperature range of 200-1600 C during a period of 5 minutes to 10 hours. The manufactured oxide materials are employed as catalysts, gas sensors, stationary phases of chromatographic columns, composite materials, thermal isolation materials and micro- or nano electronic mechanical systems (MEMS or NEMS) components. | 07-22-2010 |
Ants Löhmus, Estonia EE
| Patent application number | Description | Published |
|---|---|---|
| 20100183829 | METHOD FOR PREPARING OXIDE MATERIAL - In the current invention a method for the preparation of an oxide material was described that involves bringing the sol onto the substrate, the gelation of the solution and thermal treatment of the gel. Alkoxides are used as precursor materials for the sol preparation and substrate free structures are employed for the manufacturing of the oxide material. A gel film with thickness ranging from 5 nm to 1 μm is created onto the sol layer. The gelled film is separated into pieces by self organizing and the gelled part is disconnected from the substrate. Substrate free tubular structures with diameters ranging from 0.01-100 μm are formed of the gel film which are then heated at temperature range of 200-1600 C during a period of 5 minutes to 10 hours. The manufactured oxide materials are employed as catalysts, gas sensors, stationary phases of chromatographic columns, composite materials, thermal isolation materials and micro- or nano electronic mechanical systems (MEMS or NEMS) components. | 07-22-2010 |
Ants Lõhmus, Tartu EE
| Patent application number | Description | Published |
|---|---|---|
| 20120019760 | METHOD OF PREPARATION OF SURFACE COATING OF VARIABLE TRANSMITTANCE AND ELECTRO-OPTICAL APPLIANCE INCLUDING THE SAME - Method of preparation of surface coating of variable transmittance and an electro-optical layered appliance including the same comprises dispersing of liquid crystal microdroplets in hydrolyzable and polymerizable precursors and applying obtained mixture on a surface by spraying. Applying the material to the surface by spraying is intrinsically related to the synthesis processes because the properties of the surrounding environment (i.e. content of water and acidity, UV radiation) and the chemical reactions that take place during spraying have considerable influence on the properties (i.e. driving voltage, thickness of obtained layer). Obtained layered appliance comprises of a matrix material with dispersed microdroplets of liquid crystal obtained by the described method, electrically conductive transparent electrodes with contacts, a dielectric material, substrate and covering layers. | 01-26-2012 |
Ants Ronk, Tallinn EE
| Patent application number | Description | Published |
|---|---|---|
| 20100225303 | METHOD AND DEVICE FOR MULTICHANNEL MULTIFREQUENCY ANALYSIS OF AN OBJECT - A method for multichannel multifrequency analysis of an object, applying a set of excitation signals to the object and sampling the response signal from the object, using uniform and non-uniform undersampling. Non-uniform sampling of the response signal is performed, i.e., the sampling is performed for two or more different frequencies in one observation time slot. Also, uniform sampling of the response signal is performed, i.e., the sampling of a signal, corresponding to one frequency, is performed for two or more channels within one observation time slot and then sampling the same signal for another frequency for two or more channels within the next observation time slot. | 09-09-2010 |