Abstract: The invention provides a layer of photosensitive material that may be directly patterned. The photosensitive material may then be decomposed to leave voids or air gaps in the layer. This may provide a low dielectric constant layer with reduced resistance capacitance delay characteristics.

Abstract: A method of forming a thin film on a substrate to fabricate a microelectronic device, a microelectronic device comprising a thin film deposited according to the method, and a system comprising the microelectronic device. The thin film may include on of a low k thin film, a thin film comprising photoresist, and a sacrificial polymer. The method comprises dispersing a precursor preparation into a spray of charged droplets through subjecting the liquid precursor preparation to electrostatic forces; directing the charged droplets to move toward the substrate; and allowing the charged droplets to generate a beam of gas-phase ions as the charged droplets move toward the substrate. The method further includes directing the gas-phase ions to impinge upon the substrate to deposit the thin film thereon to yield a deposited thin film on the substrate.

Abstract: Multiple-layer films in integrated circuit processing may be formed by the phase segregation of a single composition formed above a semiconductor substrate. The composition is then induced to phase segregate into at least a first continuous phase and a second continuous phase. The composition may be formed of two or more components that phase segregate into different continuous layers. The composition may also be a single component that breaks down upon activation into two or more components that phase segregate into different continuous layers. Phase segregation may be used to form, for example, a sacrificial light absorbing material (SLAM) and a developer resistant skin, a dielectric layer and a hard mask, a photoresist and an anti-reflective coating (ARC), a stress buffer coating and a protective layer on a substrate package, and light interference layers.

Abstract: A basic developer/quencher solution formulated to include at least one supercritical fluid or liquid solvent and a base may be used to quench a photo-generated acid within a photoresist as well as develop the photoresist. The supercritical fluid or liquid solvent may be carbon dioxide and the base may be quaternary ammonium salt that has side groups that increase the solubility of the quaternary ammonium salt in carbon dioxide.

Abstract: A composition including a first moiety; and a different second moiety capable of harvesting energy from an external source, wherein the second moiety is positioned such that energy harvested at the second moiety may be transferred to the first moiety. An article of manufacture including a film including a first moiety and a different second moiety capable of harvesting energy from an external source, wherein the second moiety is positioned such that collectively the first and second moieties have an electron capture cross-section greater than the electron capture cross-section of the first moiety alone. A method including forming a film on a substrate including a first moiety and a different second moiety; exposing the film to photonic or charged particle radiation; and patterning the film.

Abstract: Exposure systems may use pellicles made of perfluoropoly-ether. These materials may exhibit reduced darkening upon repeated exposures compared to other materials.

Abstract: Carborane based PAG's are bulky, produce a strong and large superacid, and have polarities that are compatible with the chemically amplified polymers typically used in photoresists. Carborane based PAG's also provide another broad class of bulky PAG's that may be used in photoresist formulations that offer flexibility in acid strength and polarity through changes in chemical structure. These PAG's may be used with EUV wavelengths, 157 nm, or 193 nm. Resolution and critical dimension control may be improved through the use of carborane based PAG's.

Abstract: In one embodiment, the present invention includes introducing a conventional precursor and an organic precursor having an organic porogen into a vapor deposition apparatus; and forming a dielectric layer having the organic porogen on a substrate within the vapor deposition apparatus from the precursors. In certain embodiments, at least a portion of the organic porogen may be removed after subsequent processing, such as dual damascene processing.

Abstract: By using a branched long chained chain scission polymer as a photoresist for EUV and 157 nanometer applications, a relatively higher molecular weight polymer with good mechanical properties may be achieved. In addition, by using chain scission technology, line edge roughness and resolution may be improved at the same time.

Abstract: In one embodiment, the present invention includes introducing a precursor containing hydrocarbon substituents and optionally a second conventional or hydrocarbon-containing precursor into a vapor deposition apparatus; and forming a dielectric layer having the hydrocarbon substituents on a substrate within the vapor deposition apparatus from the precursor(s). In certain embodiments, at least a portion of the hydrocarbon substituents may be later removed from the dielectric layer to reduce density thereof.

Abstract: A base-loaded polymer is applied to a semiconductor feature formed after exposing and developing a photoresist layer in order to reduce line edge roughness caused by a residual acid collecting on the edges of the feature during the post-exposure bake of the photoresist. Alternatively, a polymer is applied containing grains that are of suitable for smoothing the line edge roughness.

Abstract: Several techniques are described for modulating the etch rate of a sacrificial light absorbing material (SLAM) by altering its composition so that it matches the etch rate of a surrounding dielectric. This is particularly useful in a dual damascene process where the SLAM fills a via opening and is etched along with a surrounding dielectric material to form trenches overlying the via opening.

Abstract: Numerous embodiments of a method to assay sacrificial material are disclosed. In one embodiment, a sacrificial material may be analyzed by high performance liquid chromatography. Chemical markers that correlate with material contaminants in the sacrificial material may be identified.

Abstract: A method of forming and a device including an interconnect structure having a unidirectional electrical conductive material is described. The unidirectional conductive material may overlie interconnect materials, and/or may surround interconnect materials, such as by lining the walls and base of a trench and via. The unidirectional conductive material may be configured to conduct electricity in a direction corresponding to a projection to or from a contact point and conductive material overlying the unidirectional conductive material, but have no substantial electrical conductivity in other directions. Moreover, the unidirectional conductive material may be electrically conductive in a direction normal to a surface over which it is formed or in directions along or across a plane, but have no substantial electrical conductivity in other directions.

Abstract: A method including introducing a precursor in the presence of a circuit substrate, and forming a film including a reaction product of the precursor on the substrate, wherein the precursor includes a molecule comprising a primary species of the film and a modifier. A method including introducing a precursor in the presence of a circuit substrate, the precursor including a primary species and a film modifier as a single source, and forming a film on the circuit substrate. An apparatus including a semiconductor substrate, and a film on a surface of the semiconductor substrate, the film including a reaction product of a precursor including a molecule comprising a primary species and a modifier.

Abstract: A composite sacrificial material is deposited in a void or opening in a dielectric layer on a semiconductor substrate. The composite sacrificial material includes a polymeric or oligomeric matrix with filler material mixed therein. The filler material may be particulate matter that may be used to modify one or more properties of the composite sacrificial material during semiconductor processing.

Abstract: Photoresists may be formed over a structure that has been modified so as to poison a lower layer of the photoresist. Then, when the photoresist is patterned, it is only patterned down to the poisoned layer. The poisoned layer may be removed subsequently. However, because of the use of the modification process, the critical dimensions of the photoresist may be improved in some embodiments.

Abstract: The present invention provides a positve photosensitive resin composition of high sensitivity which can form a pattern of high resolution and high residual film ration and which can give a cured film superior in mechanical properties, adhesivity and water absorptivity. That is, the present invention lies in a positive photosensitve resin compostion comprising 100 parts by weight of an alkali-soluble resin, 1 to 100 parts by weight of a photosensitve diazoquinone compound (B) and a filler (C), characterized in that content F of the filler (C) represented by the following formula is 2 to 70% by weight.

Abstract: The sloped edges of patterned photoresist material are made more vertical by treating the exposed and developed photoresist pattern to an edge correction process. A layer of acid-based material is deposited on the photoresist pattern. The layer is then exposed to acid-neutralizing light to create a top-to-bottom gradient of acidity. The structure is then exposed to heat to cause the acid to diffuse into the edge of the photoresist in amounts roughly proportional to the gradient. A subsequent development process removes the acid-based layer and also reshapes the photoresist edge in proportion to the acid diffusion, leaving a more vertical edge.

Abstract: By using a branched long chained chain scission polymer as a photoresist for EUV and 157 nanometer applications, a relatively higher molecular weight polymer with good mechanical properties may be achieved. In addition, by using chain scission technology, line edge roughness and resolution may be improved at the same time.