摘要:
A method is provided for forming a microlithographic relief image having a width of less than one half micron in a bilayer resist composition. The resist composition comprises a single component, silicon-containing photoimageable layer and a polymeric underlayer having a high optical density and a refractive index similar to the refractive index of the overlaying resist. The method provides for the formation of a relief image in the top layer using an i-line (365 nm) or deep ultra violet (170 to 300 nm) light source, followed by O.sub.2 RIE transfer of the relief image into the polymeric underlayer.
摘要:
Photosensitive silicon-containing resist compositions comprising hydroxyphenylsilsesquioxanes and siloxanes partially estersified with diazonaphthoquinone sulfonyloxy groups for imageable O.sub.2 RIE barrier films. Methods for forming image patterns on substrates using these photosensitive silicon-containing resist compositions are also provided.
摘要:
Viscosity stable, essentially gel-free linear polyamic acids are provided by a process utilizing offset stoichiometry. Polyimides formed from such polyamic acids have low TCE and low dielectric constants.Methods for improved adhesion of polyimides are also disclosed.
摘要:
New photosensitive polyimide compositions and processes of using the same in the fabrication of electronic components are provided. These compositions are comprised of ##STR1## containing polyamic acids and/or the corresponding hydroxy-polyamic esters, or hydroxypolyimides and a photoactive component as an additive or as covalently bonded functionality on the polymer chain. These compositions provide positive or negative patterning options and may be used as conventional resist materials, as imageable dielectric or passivating layers, as high Tg ion implant masks or as imageable lift-off layers in the fabrication of multilevel metal structures.
摘要:
A photoresist composition comprised of a radiation scissionable polymeric system having organopolysiloxane segments sensitized by an onium salt is disclosed. Useful organopolysiloxane containing polymers include polysiloxane-polycarbonate block copolymers, and polyorganosiloxane polyaryl esters. The resist films produced from the photoresist compositions exhibit high sensitivity, high thermal stability and resistance to oxygen reactive ion etching which makes them desirable for dry etching processes to enable submicron resolution.
摘要:
Pinhole-free thin films deposited by glow discharge or plasma polymerization of organosilanes, organosilazones and organosiloxanes for use as reactive ion etch oxygen barriers in multilayer resist structures, of lift-off masks, for fabrication of semiconductor devices, such as integrated circuits. The process includes deposition of thin plasma polymerized organosilicon barrier film over a radiation insensitive polymeric base layer previously coated on a substrate, followed by thermal annealing of the plasma polymerized barrier layer, over which is then coated a radiation sensitive resist layer. After definition of the desired resist pattern by imagewise exposure and development, the image is etch transferred into the barrier layer by reactive sputter etching in a fluorine containing ambient, and subsequently transferred into the base layer, down to the substrate, in an oxygen plasma, during which time the plasma deposited film functions as an oxygen barrier. Final metal patterns are formed by metallization and lift-off steps.
摘要:
Pinhole-free thin films deposited by glow discharge or plasma polymerization of organosilanes, organosilazones and organosiloxanes for use as reactive ion etch oxygen barriers in multilayer resist structures, of lift-off masks, for fabrication of semiconductor devices, such as integrated circuits. The process includes deposition of thin plasma polymerized organosilicon barrier film over a radiation insensitive polymeric base layer previously coated on a substrate, followed by thermal annealing of the plasma polymerized barrier layer, over which is then coated a radiation sensitive resist layer. After definition of the desired resist pattern by imagewise exposure and development, the image is etch transferred into the barrier layer by reactive sputter etching in a fluorine containing ambient, and subsequently transferred into the base layer, down to the substrate, in an oxygen plasma, during which time the plasma deposited film functions as an oxygen barrier. Final metal patterns are formed by metallization and lift-off steps.
摘要:
Pinhole-free thin films deposited by glow discharge or plasma polymerization of organosilanes, organosilazones and organosiloxanes for use as reactive ion etch oxygen barriers in multilayer resist structures, of lift-off masks, for fabrication of semiconductor devices, such as integrated circuits. The process includes deposition of thin plasma polymerized organosilicon barrier film over a radiation insensitive polymeric base layer previously coated on a substrate, followed by thermal annealing of the plasma polymerized barrier layer, over which is then coated a radiation sensitive resist layer. After definition of the desired resist pattern by imagewise exposure and development, the image is etch transferred into the barrier layer by reactive sputter etching in a fluorine containing ambient, and subsequently transferred into the base layer, down to the substrate, in an oxygen plasma, during which time the plasma deposited film functions as an oxygen barrier. Final metal patterns are formed by metallization and lift-off steps.
摘要:
The use of silicon-containing polyimide as an oxygen etch barrier in a metal lift-off process and as an oxygen etch stop in the fabrication of multi-layer metal structures is described. In practice, a lift-off layer is applied on a substrate, followed by a layer of silicon-containing polyimide and a layer of photoresist. The photoresist is lithographically patterned, and the developed image is transferred into the silicon-containing polyimide layer with a reactive ion etch using a CF.sub.4 /O.sub.2 gas mixture. The pattern is transferred to the lift-off layer in a reactive ion etch process using oxygen. Subsequent blanket metal evaporation followed by removal of the lift-off stencil results in the desired metal pattern on the substrate. In an alternate embodiment, the silicon-containing polyimide can be doped with a photoactive compound reducing the need for a separate photoresist imaging layer on the top.
摘要翻译:描述了在制造多层金属结构中使用含硅聚酰亚胺作为金属剥离工艺中的氧蚀刻阻挡层和作为氧蚀刻停止。 实际上,将剥离层施加在基底上,随后是一层含硅聚酰亚胺和一层光致抗蚀剂。 光致抗蚀剂被光刻图案化,并且使用CF 4 / O 2气体混合物通过反应离子蚀刻将显影的图像转移到含硅聚酰亚胺层中。 在使用氧的反应离子蚀刻工艺中将图案转移到剥离层。 随后的毯式金属蒸发,随后去除剥离模板,导致基材上所需的金属图案。 在替代实施例中,含硅聚酰亚胺可以掺杂光活性化合物,减少了在顶部上分离的光致抗蚀剂成像层的需要。
摘要:
Chemical heat amplification is provided in thermal transfer printing, wherein some of the heat necessary for melting and transferring ink from a solid fusible layer in a ribbon to a receiving medium is provided by an exothermic reaction. This chemical reaction is due to an exothermic material that is located in the ink layer, or in another layer of the ink bearing ribbon. The exothermic reaction reduces the amount of the input power which must be applied either electrically or with electromagnetic waves. Examples of suitable exothermic materials are those which will provide heat within the operative temperature range of the ink, and specifically hydrazone derivatives which are substantially colorless, and have a molecular weight in the approximate range 150-650.