METHOD OF MANUFACTURING OF A FIELD EMISSION ELEMENT

METHOD OF MANUFACTURING OF A FIELD EMISSION ELEMENT

FIELD: electrical engineering.SUBSTANCE: invention relates to electronic engineering, in particular to field emission elements containing carbon nanotubes used as cathodes, and also to a method for manufacturing them. Method of manufacturing a field emission element includes formation of a dielectri...

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Bibliographische Detailangaben
Hauptverfasser: Zhivikhin Aleksej Vasilevich, Saurov Aleksandr Nikolaevich, Kozlov Sergej Nikolaevich, Pavlov Aleksandr Aleksandrovich, Kitsyuk Evgenij Pavlovich
Format: Patent
Sprache:eng ; rus
Schlagworte:
BASIC ELECTRIC ELEMENTS
ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
ELECTRICITY
MANUFACTURE OR TREATMENT THEREOF
NANOSTRUCTURES FORMED BY MANIPULATION OF INDIVIDUAL ATOMS,MOLECULES, OR LIMITED COLLECTIONS OF ATOMS OR MOLECULES ASDISCRETE UNITS
NANOTECHNOLOGY
PERFORMING OPERATIONS
TRANSPORTING
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Zusammenfassung:FIELD: electrical engineering.SUBSTANCE: invention relates to electronic engineering, in particular to field emission elements containing carbon nanotubes used as cathodes, and also to a method for manufacturing them. Method of manufacturing a field emission element includes formation of a dielectric layer on an electrically conductive substrate, formation of a mask for etching a dielectric layer and an electrically conductive substrate, formation of a matrix of holes in dielectric layer and depressions in the substrate, formation of a catalyst layer for growing carbon nanotubes, removal of a mask, formation of a mask for etching catalyst layer, liquid chemical etching of catalyst layer with the formation of catalyst areas inside the depressions in electrically conductive substrate for the subsequent growth of carbon nanotubes, removal of the mask, plasma-chemical deposition of the second dielectric layer, magnetron etching of the drawing layer, forming a mask for etching the structure consisting of a pulling and dielectric layers, over previously formed catalyst areas inside the depressions in the substrate for the subsequent growth of carbon nanotubes, plasma-chemical anisotropic etching with the formation of holes in the drawing and dielectric layers to form a through hole, removal of the mask, isotropic gas-phase etching of the second dielectric layer before opening the catalyst, vapor-phase synthesis of carbon nanotubes on the catalyst.EFFECT: preventing a short between carbo nanotube and the drawing electrode, reducing leakage of currents, increasing the current emission, increasing the heat sink with carbon nanotubes, improving the manufacturability, reliability and increased yield.1 cl, 4 dwg Изобретение относится к электронной технике, в частности к полевым эмиссионным элементам, содержащим углеродные нанотрубки, используемые в качестве катодов, а также способу их изготовления. Способ изготовления полевого эмиссионного элемента включает формирование на электропроводящей подложке диэлектрического слоя, формирование маски для травления диэлектрического слоя и электропроводящей подложки, формирование матрицы отверстий в диэлектрическом слое и углублений в подложке, формирование слоя катализатора для выращивания углеродных нанотрубок, удаление маски, формирование маски для травления слоя катализатора, жидкостное химическое травление слоя катализатора с образованием областей катализатора внутри углублений в электропроводящей подложке для последующего в