Publicación: ELUCIDATING THE ROLE OF AMMONIA-BASED SALTS ON THE PREPARATION OF CELLULOSE-DERIVED CARBON AEROGELS
Fecha
2017
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Editor
CHEMICAL ENGINEERING SCIENCE
Resumen
THE EFFECTS OF USING (NH4)2SO4 AS A CARBONIZATION PROMOTER FOR PRODUCING CELLULOSE-DERIVED CARBON AEROGELS (CAG) WAS STUDIED. THE EFFECTS OF PRETREATMENT ON THE TEXTURAL, MORPHOLOGICAL, AND CHEMICAL PROPERTIES OF PRISTINE CELLULOSE NANOFIBERS (CNF) WERE ANALYZED THROUGH N2 ADSORPTION, SCANNING ELECTRON MICROSCOPY (SEM), X-RAY DIFFRACTION (XRD), ELEMENTAL ANALYSIS, INDUCTIVELY COUPLED PLASMA OPTICAL EMISSION SPECTROMETRY (ICP-OES), AND FOURIER TRANSFORM INFRARED SPECTROSCOPY (FT-IR). FURTHERMORE, THE THERMAL BEHAVIORS OF RAW CNF AND THOSE IMPREGNATED WITH (NH4)2SO4 WERE INVESTIGATED BY COUPLING THERMOGRAVIMETRIC ANALYSIS WITH MASS SPECTROMETRY (TGA-MS). THE RESULTS SUGGESTED THAT THE PRETREATMENT DID NOT CAUSE ANY MORPHOLOGICAL/STRUCTURAL CHANGES IN THE NANOFIBERS. HOWEVER, THE PRESENCE OF (NH4)2SO4 AFFECTED THEIR PYROLYSIS BY FAVORING INTERMOLECULAR DEHYDRATION, THEREBY REDUCING THE FORMATION OF LEVOGLUCOSAN AND INCREASING THE CARBON YIELD DURING PYROLYSIS. INTERESTINGLY, ABOVE CERTAIN IMPREGNATION LEVEL, THE CONCENTRATION OF SULFATE-DERIVED SPECIES IN THE GAS PHASE INCREASED. THIS PHENOMENON WAS ATTRIBUTED TO AN EXCESS OF SALT WITHIN THE FIBER STRUCTURE AND ON THEIR SURFACES. CONSEQUENTLY, THE LEVOGLUCOSAN-TO-CARBON ROUTE WAS INHIBITED, AND THE MECHANISMS OF INTRA- AND INTER-MOLECULAR DEHYDRATION, CHAIN SCISSION, AND CROSSLINKING REACTIONS WERE AFFECTED, LEADING TO A REDUCED CHAR YIELD. THE CHEMICAL EFFECTS OF AMMONIA-BASED SALTS IS ELUCIDATED SUPPORTED ON THE INTERPRETATION OF MS SIGNALS AND KINETIC MODELING RESULTS.
