Cellulose hydrolysis by a new porous coordination polymer decorated with sulfonic acid functional groups

Advanced Materials

Volumn 23, Issue 29, 2011, Pages 3294-3297

  Akiyama, George ^a   Matsuda, Ryotaro ^a,b   Sato, Hiroshi ^a,b   Takata, Masaki ^c   Kitagawa, Susumu ^a,b  

^a JAPAN SCIENCE AND TECHNOLOGY AGENCY   (Japan)

^b KYOTO UNIVERSITY   (Japan)

^c RIKEN SPring 8 Center ^*  (Japan)

Author keywords

cellulose hydrolysis; metal organic frameworks; porous coordination polymers; solid acid catalysts

Indexed keywords

ACID SITE; CATALYTIC REACTIONS; CELLULOSE HYDROLYSIS; HIGH DURABILITY; METAL ORGANIC FRAMEWORK; MONO- AND DISACCHARIDES; PORE SURFACE; POROUS COORDINATION POLYMER; SOLID ACID; SOLID ACID CATALYSTS; SULFONIC ACID; SULFONIC ACID GROUPS; SULFONIC GROUP;

CATALYSIS; CATALYST ACTIVITY; CELLULOSE; FUNCTIONAL GROUPS; HYDROLYSIS;

FUNCTIONAL POLYMERS;

ACID; CELLULOSE; DISACCHARIDASE; MONOSACCHARIDE; POLYMER; SULFONIC ACID DERIVATIVE;

ARTICLE; CATALYSIS; CHEMISTRY; HYDROLYSIS; POROSITY; SYNTHESIS; TEMPERATURE;

ACIDS; CATALYSIS; CELLULOSE; DISACCHARIDASES; HYDROLYSIS; MONOSACCHARIDES; POLYMERS; POROSITY; SULFONIC ACIDS; TEMPERATURE;

EID: 79960923114     PISSN: 09359648     EISSN: 15214095     Source Type: Journal    
DOI: 10.1002/adma.201101356     Document Type: Article

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