Effect of surface modification conditions on the synthesis of mesoporous crack-free silica aerogel monoliths from waterglass via ambient-drying

Microporous and Mesoporous Materials

Volumn 130, Issue 1-3, 2010, Pages 295-302

  Hwang, Sung Woo ^a   Kim, Tae Youn ^a   Hyun, Sang Hoon ^a  

^a Yonsei University   (South Korea)

Author keywords

Aerogel; Ambient drying; Monolith; Silylation; Springback

Indexed keywords

AMBIENT PRESSURES; COLLOIDAL SILICA; CRACK FREE; DRYING PROCESS; GEL SURFACE; HIGH SPECIFIC SURFACE AREA; ISOPROPYL ALCOHOLS; LOW DENSITY; MEAN PORE SIZE; MESOPOROUS; MESOPOROUS STRUCTURES; N-HEXANE; PORE LIQUIDS; SILICA AEROGELS; SILYLATION; SILYLATIONS; SOLVENT EXCHANGES; SPRING-BACK; SURFACE MODIFICATION; SURFACE-MODIFIED; TRIMETHYLCHLOROSILANES; VISIBLE CRACKS;

ACETONE; AEROGELS; ATMOSPHERIC PRESSURE; COAGULATION; CRACKS; DEWATERING; GELATION; HEXANE; ION EXCHANGE; MONOLITHIC INTEGRATED CIRCUITS; ORGANIC POLYMERS; ORGANIC SOLVENTS; OXIDES; PRESSURE EFFECTS; SILICA; SILICA GEL; SURFACE TREATMENT;

CERAMIC MATERIALS;

EID: 76049104232     PISSN: 13871811     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.micromeso.2009.11.024     Document Type: Article

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