2010
DOI: 10.1002/adma.201001762
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Photoresist Latent and Developer Images as Probed by Neutron Reflectivity Methods

Abstract: Photoresist materials enable the fabrication of advanced integrated circuits with ever-decreasing feature sizes. As next-generation light sources are developed, using extreme ultraviolet light of wavelength 13.5 nm, these highly tuned formulations must meet strict image-fidelity criteria to maintain the expected performance gains from decreases in feature size. However, polymer photoresists appear to be reaching resolution limits and advancements in measurements of the in situ formed solid/solid and solid/liqu… Show more

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Cited by 24 publications
(23 citation statements)
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“…The roughness inherent in the photolithographic processes is a major impediment to effective patterning below 32 nm. A method for preparation of surfaces that replicate the side walls of lithographically prepared features has been reported by Prabhu et al72 The method involves preparation of a polymeric film consisting of two layers, where the top layer consists of a PtBMA 0.44 ‐ stat ‐MMA 0.56 resist polymer that contains tertiary ester pendant groups and a PAG, while the bottom layer is an open‐source extreme ultraviolet (EUV) resist polymer, which is based on polyhydroxystyrene chemistry (see Supporting Information, Figure S8),73 and does not contain PAG. When exposed to UV light the PAG molecules in the upper layer undergo photodecomposition to yield a strong acid.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The roughness inherent in the photolithographic processes is a major impediment to effective patterning below 32 nm. A method for preparation of surfaces that replicate the side walls of lithographically prepared features has been reported by Prabhu et al72 The method involves preparation of a polymeric film consisting of two layers, where the top layer consists of a PtBMA 0.44 ‐ stat ‐MMA 0.56 resist polymer that contains tertiary ester pendant groups and a PAG, while the bottom layer is an open‐source extreme ultraviolet (EUV) resist polymer, which is based on polyhydroxystyrene chemistry (see Supporting Information, Figure S8),73 and does not contain PAG. When exposed to UV light the PAG molecules in the upper layer undergo photodecomposition to yield a strong acid.…”
Section: Resultsmentioning
confidence: 99%
“…Preparation of a PHOST‐Based Model Surface that is Similar to Roughness Side Wall Features : The method used is an adaption from the work of Prabhu et al72 An open source EUV resist polymer, poly((4‐hydroxystyrene) 0.6 ‐ stat ‐polystyrene 0.2 ‐ stat ‐PtBMA 0.2 ) (see Supporting Information, Figure S8) (10.0 wt%) was dissolved in PGMEA and trioctylamine (0.07 wt% with respect to the polymer), was also incorporated as the quencher. Note that this solution does not contain PAG.…”
Section: Methodsmentioning
confidence: 99%
“…The test vehicle that was selected to do this in the first instance was a planar rough surface which was prepared using methodology established by Prabhu and coworkers. [50] Briefly, this involved generating a two layer film on a silicon wafer, where the bottom layer was comprised of a poly(hydroxystyrene) based resist polymer that does not contain a photoacid generator. The top layer, or photoacid feeder layer, was comprised of a resist polymer that contained PAG.…”
Section: Understanding the Effect Of Annealing On Bcp Morphologymentioning
confidence: 99%
“…To test this hypothesis, FT-IR spectroscopy was performed on hot plate and laser heated samples to compare the deprotection byproducts. For the 193 nm resist, the deprotection mechanism is thought to be the cleavage of the adamantyl groups from the C-O ester 12 , resulting in an increased concentration of carboxylic acids (~1700 cm -1 ), and a decreased concentration of C-O ester (~1150 cm -1 ) and adamantyl esters (~1740 cm -1 ). Fig.…”
Section: Deprotection Analysis Through Ir and Nmr Spectroscopymentioning
confidence: 99%