首页|Fe-substituted silica via lattice dissolution–reprecipitation replacement for tungsten chemical mechanical planarization
Fe-substituted silica via lattice dissolution–reprecipitation replacement for tungsten chemical mechanical planarization
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NSTL
Elsevier
? 2022 The Korean Society of Industrial and Engineering ChemistryChemical mechanical planarization (CMP) is indispensable for processing of integrated circuit semiconductor devices to attain globally planarized surfaces. One of the critical consumables in the CMP process is a slurry containing abrasives like colloidal silica (SiO2). However, there is a limit to the use of CMP slurries containing SiO2 under acidic conditions due to deterioration of colloidal stability, resulting in defects on the planarized surfaces. Herein, we developed an Fe-substituted SiO2 consisting of single-atom Fe(III), enabling improved colloidal stability over universal pH regions for low-defect tungsten CMP applications. The facile and unique single-atom modification process is proposed by controlling the lattice dissolution–reprecipitation replacement of Fe3+ and Si4+ ions. The physicochemical states of Fe atoms in the surficial lattice of Fe-substituted SiO2 were confirmed through Raman spectroscopy, electron microscopy, x-ray absorption spectroscopy, and energy-dispersive x-ray spectroscopy. Consequently, enhanced performance in W CMP was achieved using Fe-substituted SiO2. Regarding defect performance, defects were reduced from 11 scratches to 0 and 94 other defects to only 7. Additionally, the removal rate increased from 67 to 122 ?/min, and the surface topography improved from 6.6 to 2.9 nm.
Chemical mechanical planarizationCoatingIronpHSilicaSubstitution
Sun S.、Lee G.、Kim S.、Hwang J.、Song T.、Paik U.、Lee K.、Kim Y.、Kong H.、Chung K.Y.、Ali G.
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Department of Energy Engineering Hanyang University
Foundary Process Development Team Semiconductor R&D Center Samsung Electronics
Memory Material Engineering Group Memory Business Division Samsung Electronics
Material R&D Center KCTech
Center for Energy Storage Research Korea Institute of Science and Technology
U.S.-Pakistan Center for Advanced Studies in Energy (USPCASE) National University of Science and Technology (NUST)
NSTL
Elsevier
