摘要:
A resist underlayer composition includes a solvent and an organosilane condensation polymerization product, the organosilane condensation polymerization product including about 40 to about 80 mol % of a structural unit represented by the following Chemical Formula 1,
摘要:
A resist underlayer composition and a method of manufacturing a semiconductor integrated circuit device, the composition including a solvent and an organosilane polymer, the organosilane polymer being a condensation polymerization product of at least one first compound represented by Chemical Formulae 1 and 2 and at least one second compound represented by Chemical Formulae 3 to 5.
摘要:
A resist underlayer composition and a method of manufacturing a semiconductor integrated circuit device, the composition including a solvent and an organosilane polymer, the organosilane polymer being a condensation polymerization product of at least one first compound represented by Chemical Formulae 1 and 2 and at least one second compound represented by Chemical Formulae 3 to 5.
摘要:
A photoresist underlayer composition includes a solvent, and a polysiloxane resin represented by Chemical Formula 1: {(SiO1.5—Y—SiO1.5)x(SiO2)y(XSiO1.5)z}(OH)e(OR1)f. [Chemical Formula 1]
摘要:
A resist underlayer composition and a method of manufacturing a semiconductor integrated circuit device, the resist underlayer composition including a solvent and an organosilane-based polymer, the organosilane-based polymer being a polymerization product of at least one first compound represented Chemical Formulae 1 to 3 and at least one second compound represented by Chemical Formulae 4 and 5.
摘要:
A resist underlayer composition includes a solvent, and an organosilane condensation polymerization product of: a compound represented by the following Chemical Formula 1, a compound represented by the following Chemical Formula 2, and a compound represented by the following Chemical Formula 3, [R1O]3Si—X [Chemical Formula 1] [R2O]3Si—R3 [Chemical Formula 2] [R4O]3Si—Si[OR5]3. [Chemical Formula 3]
摘要:
A resist underlayer composition, including a solvent, and an organosilane condensation polymerization product of hydrolyzed products produced from a compound represented by Chemical Formula 1, a compound represented by Chemical Formula 2, and a compound represented by Chemical Formula 3.
摘要:
Methods are provided for fabricating a semiconductor device that include the steps of: sequentially forming a metal interconnection and a protecting layer on a semiconductor substrate; forming a contact hole on the protecting layer; isolating the contact hole by forming a molding layer and an etching stop layer stacked thereon; forming a sacrificial layer on the etching stop layer so as to fill the contact hole; forming a photoresist layer with an opening so as to expose the sacrificial layer and such that the opening of the photoresist layer aligns with the contact hole; forming a trench in the molding layer to penetrate the sacrificial layer and the etching stop layer; and performing a wet etching on the semiconductor substrate having the trench to remove the photoresist layer and the sacrificial layer, wherein the wet etching step is performed using an organic compound and fluoride ion-based buffered solution.
摘要:
Etching solutions are disclosed for etching low-k dielectric layers on substrates, said solutions including effective proportions of an oxidant for oxidizing a low-k dielectric layer and effective proportions of an oxide etchant for removing oxides. It is possible to easily remove a low-k dielectric layer using such etching solutions by a single-stage treatment process.
摘要:
Methods are provided for fabricating a semiconductor device that include the steps of: sequentially forming a metal interconnection and a protecting layer on a semiconductor substrate; forming a contact hole on the protecting layer; isolating the contact hole by forming a molding layer and an etching stop layer stacked thereon; forming a sacrificial layer on the etching stop layer so as to fill the contact hole; forming a photoresist layer with an opening so as to expose the sacrificial layer and such that the opening of the photoresist layer aligns with the contact hole; forming a trench in the molding layer to penetrate the sacrificial layer and the etching stop layer; and performing a wet etching on the semiconductor substrate having the trench to remove the photoresist layer and the sacrificial layer, wherein the wet etching step is performed using an organic compound and fluoride ion-based buffered solution.