Hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols
Perhydropolysilazane (PHPS) was chemically modified with various alcohols (ROH, RCH3, n-C3H7, n-C5H11, n-C10H21, CH3OC2H4 or C2H5OC2H4) at a PHPS (Si basis) to ROH molar ratio of 3:1. The resulting alkoxy group-functionalized PHPS materials were successfully converted to amorphous silica-based inorg...
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my.utm.556352017-02-15T03:29:49Z http://eprints.utm.my/id/eprint/55635/ Hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols Mohd. Sokri, Mohd. Nazri Onishi, Takahiro Daiko, Yusuke Honda, Sawao Iwamoto, Yuji TP Chemical technology Perhydropolysilazane (PHPS) was chemically modified with various alcohols (ROH, RCH3, n-C3H7, n-C5H11, n-C10H21, CH3OC2H4 or C2H5OC2H4) at a PHPS (Si basis) to ROH molar ratio of 3:1. The resulting alkoxy group-functionalized PHPS materials were successfully converted to amorphous silica-based inorganic-organic hybrids by exposure to vapour from aqueous ammonia at room temperature. Nitrogen sorption analyses demonstrated that these hybrids contained a small quantity of micropores less than 0.9 nm in size along with mesopores having a relatively wide pore size distribution (PSD). The PSD plots of the CH3O, CH3OC2H4O and C2H5OC2H4O functionalized samples had especially wide distributions extending to more than 50 nm. Water sorption tests showed that the hybrid synthesized from PHPS modified with n-C10H21OH was stable and did not exhibit significant capillary condensation even at higher levels of humidity above P/Po = 0.6. As a result, the number of water molecules adsorbed per square nanometre of the sample surface area at P/Po = 0.95 was as low as 4 mol nm-2. The relatively low density of hydrophilic silanol groups (0.21), smaller average mesopore size (3.3 nm) and longer hydrophobic alkyl chain of the n-C10H21O moiety were all thought to contribute to improving the hydrophobicity of this hybrid. These results indicate that n-C10H21OH is a useful alcohol modifier for synthesizing amorphous silica-based inorganic-organic hybrid materials with improved hydrophobic properties through a polymer precursor route Elsevier 2015-06 Article PeerReviewed Mohd. Sokri, Mohd. Nazri and Onishi, Takahiro and Daiko, Yusuke and Honda, Sawao and Iwamoto, Yuji (2015) Hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols. Microporous and Mesoporous Materials, 215 . pp. 183-190. ISSN 1387-1811 http://dx.doi.org/10.1016/j.micromeso.2015.05.039 DOI:10.1016/j.micromeso.2015.05.039 |
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TP Chemical technology Mohd. Sokri, Mohd. Nazri Onishi, Takahiro Daiko, Yusuke Honda, Sawao Iwamoto, Yuji Hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols |
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Perhydropolysilazane (PHPS) was chemically modified with various alcohols (ROH, RCH3, n-C3H7, n-C5H11, n-C10H21, CH3OC2H4 or C2H5OC2H4) at a PHPS (Si basis) to ROH molar ratio of 3:1. The resulting alkoxy group-functionalized PHPS materials were successfully converted to amorphous silica-based inorganic-organic hybrids by exposure to vapour from aqueous ammonia at room temperature. Nitrogen sorption analyses demonstrated that these hybrids contained a small quantity of micropores less than 0.9 nm in size along with mesopores having a relatively wide pore size distribution (PSD). The PSD plots of the CH3O, CH3OC2H4O and C2H5OC2H4O functionalized samples had especially wide distributions extending to more than 50 nm. Water sorption tests showed that the hybrid synthesized from PHPS modified with n-C10H21OH was stable and did not exhibit significant capillary condensation even at higher levels of humidity above P/Po = 0.6. As a result, the number of water molecules adsorbed per square nanometre of the sample surface area at P/Po = 0.95 was as low as 4 mol nm-2. The relatively low density of hydrophilic silanol groups (0.21), smaller average mesopore size (3.3 nm) and longer hydrophobic alkyl chain of the n-C10H21O moiety were all thought to contribute to improving the hydrophobicity of this hybrid. These results indicate that n-C10H21OH is a useful alcohol modifier for synthesizing amorphous silica-based inorganic-organic hybrid materials with improved hydrophobic properties through a polymer precursor route |
| format |
Article |
| author |
Mohd. Sokri, Mohd. Nazri Onishi, Takahiro Daiko, Yusuke Honda, Sawao Iwamoto, Yuji |
| author_facet |
Mohd. Sokri, Mohd. Nazri Onishi, Takahiro Daiko, Yusuke Honda, Sawao Iwamoto, Yuji |
| author_sort |
Mohd. Sokri, Mohd. Nazri |
| title |
Hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols |
| title_short |
Hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols |
| title_full |
Hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols |
| title_fullStr |
Hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols |
| title_full_unstemmed |
Hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols |
| title_sort |
hydrophobicity of amorphous silica-based inorganic-organic hybrid materials derived from perhydropolysilazane chemically modified with alcohols |
| publisher |
Elsevier |
| publishDate |
2015 |
| url |
http://eprints.utm.my/id/eprint/55635/ http://dx.doi.org/10.1016/j.micromeso.2015.05.039 |
| _version_ |
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