Dambournet et al., 2008 - Google Patents
Structural investigations and acidic properties of high surface area pyrochlore aluminium hydroxyfluorideDambournet et al., 2008
- Document ID
- 7688149899603811695
- Author
- Dambournet D
- Demourgues A
- Martineau C
- Durand E
- Majimel J
- Vimont A
- Leclerc H
- Lavalley J
- Daturi M
- Legein C
- Buzaré J
- Fayon F
- Tressaud A
- Publication year
- Publication venue
- Journal of Materials Chemistry
External Links
Snippet
High surface area aluminium hydroxyfluoride exhibiting the pyrochlore-type structure has been synthesized using microwave hydrothermal process. The optimization of the crystallite size and surface area of the material has been performed by varying some synthesis …
- DDPBJHRIOGWPSZ-UHFFFAOYSA-N [Al].FO data:image/svg+xml;base64,<?xml version='1.0' encoding='iso-8859-1'?>
<svg version='1.1' baseProfile='full'
              xmlns='http://www.w3.org/2000/svg'
                      xmlns:rdkit='http://www.rdkit.org/xml'
                      xmlns:xlink='http://www.w3.org/1999/xlink'
                  xml:space='preserve'
width='300px' height='300px' viewBox='0 0 300 300'>
<!-- END OF HEADER -->
<rect style='opacity:1.0;fill:#FFFFFF;stroke:none' width='300.0' height='300.0' x='0.0' y='0.0'> </rect>
<path class='bond-0 atom-1 atom-2' d='M 212.2,228.2 L 160.9,228.2' style='fill:none;fill-rule:evenodd;stroke:#77D8ED;stroke-width:2.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1' />
<path class='bond-0 atom-1 atom-2' d='M 160.9,228.2 L 109.5,228.2' style='fill:none;fill-rule:evenodd;stroke:#E84235;stroke-width:2.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1' />
<text x='149.6' y='96.4' class='atom-0' style='font-size:40px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#3B4143' >A</text>
<text x='177.2' y='96.4' class='atom-0' style='font-size:40px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#3B4143' >l</text>
<text x='263.5' y='248.2' class='atom-1' style='font-size:40px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#77D8ED' >F</text>
<text x='10.2' y='248.2' class='atom-2' style='font-size:40px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#E84235' >H</text>
<text x='35.8' y='248.2' class='atom-2' style='font-size:40px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#E84235' >O</text>
<path d='M 190.5,76.4 L 190.5,76.2 L 190.5,76.1 L 190.5,75.9 L 190.4,75.7 L 190.4,75.6 L 190.3,75.4 L 190.2,75.3 L 190.1,75.1 L 190.0,75.0 L 189.8,74.9 L 189.7,74.8 L 189.6,74.7 L 189.4,74.6 L 189.3,74.5 L 189.1,74.5 L 188.9,74.5 L 188.8,74.4 L 188.6,74.4 L 188.4,74.4 L 188.2,74.4 L 188.1,74.5 L 187.9,74.5 L 187.7,74.6 L 187.6,74.7 L 187.4,74.7 L 187.3,74.8 L 187.2,75.0 L 187.0,75.1 L 186.9,75.2 L 186.8,75.4 L 186.8,75.5 L 186.7,75.7 L 186.6,75.8 L 186.6,76.0 L 186.6,76.2 L 186.5,76.3 L 186.5,76.5 L 186.6,76.7 L 186.6,76.8 L 186.6,77.0 L 186.7,77.2 L 186.8,77.3 L 186.8,77.5 L 186.9,77.6 L 187.0,77.8 L 187.2,77.9 L 187.3,78.0 L 187.4,78.1 L 187.6,78.2 L 187.7,78.3 L 187.9,78.3 L 188.1,78.4 L 188.2,78.4 L 188.4,78.4 L 188.6,78.4 L 188.8,78.4 L 188.9,78.4 L 189.1,78.3 L 189.3,78.3 L 189.4,78.2 L 189.6,78.1 L 189.7,78.0 L 189.8,77.9 L 190.0,77.8 L 190.1,77.7 L 190.2,77.5 L 190.3,77.4 L 190.4,77.2 L 190.4,77.1 L 190.5,76.9 L 190.5,76.8 L 190.5,76.6 L 190.5,76.4 L 188.5,76.4 Z' style='fill:#000000;fill-rule:evenodd;fill-opacity:1;stroke:#000000;stroke-width:0.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1;' />
<path d='M 190.5,97.2 L 190.5,97.0 L 190.5,96.8 L 190.5,96.7 L 190.4,96.5 L 190.4,96.3 L 190.3,96.2 L 190.2,96.0 L 190.1,95.9 L 190.0,95.8 L 189.8,95.7 L 189.7,95.6 L 189.6,95.5 L 189.4,95.4 L 189.3,95.3 L 189.1,95.3 L 188.9,95.2 L 188.8,95.2 L 188.6,95.2 L 188.4,95.2 L 188.2,95.2 L 188.1,95.2 L 187.9,95.3 L 187.7,95.3 L 187.6,95.4 L 187.4,95.5 L 187.3,95.6 L 187.2,95.7 L 187.0,95.8 L 186.9,96.0 L 186.8,96.1 L 186.8,96.3 L 186.7,96.4 L 186.6,96.6 L 186.6,96.8 L 186.6,96.9 L 186.5,97.1 L 186.5,97.3 L 186.6,97.4 L 186.6,97.6 L 186.6,97.8 L 186.7,97.9 L 186.8,98.1 L 186.8,98.2 L 186.9,98.4 L 187.0,98.5 L 187.2,98.6 L 187.3,98.7 L 187.4,98.8 L 187.6,98.9 L 187.7,99.0 L 187.9,99.1 L 188.1,99.1 L 188.2,99.2 L 188.4,99.2 L 188.6,99.2 L 188.8,99.2 L 188.9,99.1 L 189.1,99.1 L 189.3,99.0 L 189.4,99.0 L 189.6,98.9 L 189.7,98.8 L 189.8,98.7 L 190.0,98.6 L 190.1,98.4 L 190.2,98.3 L 190.3,98.2 L 190.4,98.0 L 190.4,97.9 L 190.5,97.7 L 190.5,97.5 L 190.5,97.3 L 190.5,97.2 L 188.5,97.2 Z' style='fill:#000000;fill-rule:evenodd;fill-opacity:1;stroke:#000000;stroke-width:0.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1;' />
<path d='M 190.5,55.7 L 190.5,55.5 L 190.5,55.3 L 190.5,55.1 L 190.4,55.0 L 190.4,54.8 L 190.3,54.7 L 190.2,54.5 L 190.1,54.4 L 190.0,54.3 L 189.8,54.1 L 189.7,54.0 L 189.6,53.9 L 189.4,53.9 L 189.3,53.8 L 189.1,53.7 L 188.9,53.7 L 188.8,53.7 L 188.6,53.7 L 188.4,53.7 L 188.2,53.7 L 188.1,53.7 L 187.9,53.8 L 187.7,53.8 L 187.6,53.9 L 187.4,54.0 L 187.3,54.1 L 187.2,54.2 L 187.0,54.3 L 186.9,54.4 L 186.8,54.6 L 186.8,54.7 L 186.7,54.9 L 186.6,55.1 L 186.6,55.2 L 186.6,55.4 L 186.5,55.6 L 186.5,55.7 L 186.6,55.9 L 186.6,56.1 L 186.6,56.2 L 186.7,56.4 L 186.8,56.6 L 186.8,56.7 L 186.9,56.9 L 187.0,57.0 L 187.2,57.1 L 187.3,57.2 L 187.4,57.3 L 187.6,57.4 L 187.7,57.5 L 187.9,57.5 L 188.1,57.6 L 188.2,57.6 L 188.4,57.6 L 188.6,57.7 L 188.8,57.6 L 188.9,57.6 L 189.1,57.6 L 189.3,57.5 L 189.4,57.5 L 189.6,57.4 L 189.7,57.3 L 189.8,57.2 L 190.0,57.1 L 190.1,56.9 L 190.2,56.8 L 190.3,56.6 L 190.4,56.5 L 190.4,56.3 L 190.5,56.2 L 190.5,56.0 L 190.5,55.8 L 190.5,55.7 L 188.5,55.7 Z' style='fill:#000000;fill-rule:evenodd;fill-opacity:1;stroke:#000000;stroke-width:0.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1;' />
<path d='M 190.5,76.4 L 190.5,76.2 L 190.5,76.1 L 190.5,75.9 L 190.4,75.7 L 190.4,75.6 L 190.3,75.4 L 190.2,75.3 L 190.1,75.1 L 190.0,75.0 L 189.8,74.9 L 189.7,74.8 L 189.6,74.7 L 189.4,74.6 L 189.3,74.5 L 189.1,74.5 L 188.9,74.5 L 188.8,74.4 L 188.6,74.4 L 188.4,74.4 L 188.2,74.4 L 188.1,74.5 L 187.9,74.5 L 187.7,74.6 L 187.6,74.7 L 187.4,74.7 L 187.3,74.8 L 187.2,75.0 L 187.0,75.1 L 186.9,75.2 L 186.8,75.4 L 186.8,75.5 L 186.7,75.7 L 186.6,75.8 L 186.6,76.0 L 186.6,76.2 L 186.5,76.3 L 186.5,76.5 L 186.6,76.7 L 186.6,76.8 L 186.6,77.0 L 186.7,77.2 L 186.8,77.3 L 186.8,77.5 L 186.9,77.6 L 187.0,77.8 L 187.2,77.9 L 187.3,78.0 L 187.4,78.1 L 187.6,78.2 L 187.7,78.3 L 187.9,78.3 L 188.1,78.4 L 188.2,78.4 L 188.4,78.4 L 188.6,78.4 L 188.8,78.4 L 188.9,78.4 L 189.1,78.3 L 189.3,78.3 L 189.4,78.2 L 189.6,78.1 L 189.7,78.0 L 189.8,77.9 L 190.0,77.8 L 190.1,77.7 L 190.2,77.5 L 190.3,77.4 L 190.4,77.2 L 190.4,77.1 L 190.5,76.9 L 190.5,76.8 L 190.5,76.6 L 190.5,76.4 L 188.5,76.4 Z' style='fill:#000000;fill-rule:evenodd;fill-opacity:1;stroke:#000000;stroke-width:0.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1;' />
</svg>
 data:image/svg+xml;base64,<?xml version='1.0' encoding='iso-8859-1'?>
<svg version='1.1' baseProfile='full'
              xmlns='http://www.w3.org/2000/svg'
                      xmlns:rdkit='http://www.rdkit.org/xml'
                      xmlns:xlink='http://www.w3.org/1999/xlink'
                  xml:space='preserve'
width='85px' height='85px' viewBox='0 0 85 85'>
<!-- END OF HEADER -->
<rect style='opacity:1.0;fill:#FFFFFF;stroke:none' width='85.0' height='85.0' x='0.0' y='0.0'> </rect>
<path class='bond-0 atom-1 atom-2' d='M 66.9,57.2 L 48.5,57.2' style='fill:none;fill-rule:evenodd;stroke:#77D8ED;stroke-width:1.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1' />
<path class='bond-0 atom-1 atom-2' d='M 48.5,57.2 L 30.1,57.2' style='fill:none;fill-rule:evenodd;stroke:#E84235;stroke-width:1.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1' />
<text x='42.4' y='33.0' class='atom-0' style='font-size:20px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#3B4143' >A</text>
<text x='56.7' y='33.0' class='atom-0' style='font-size:20px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#3B4143' >l</text>
<text x='68.2' y='67.5' class='atom-1' style='font-size:20px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#77D8ED' >F</text>
<text x='3.4' y='67.5' class='atom-2' style='font-size:20px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#E84235' >H</text>
<text x='16.6' y='67.5' class='atom-2' style='font-size:20px;font-style:normal;font-weight:normal;fill-opacity:1;stroke:none;font-family:sans-serif;text-anchor:start;fill:#E84235' >O</text>
<path d='M 64.9,22.7 L 64.9,22.6 L 64.9,22.5 L 64.9,22.5 L 64.9,22.4 L 64.8,22.3 L 64.8,22.2 L 64.7,22.1 L 64.7,22.1 L 64.6,22.0 L 64.6,21.9 L 64.5,21.9 L 64.4,21.8 L 64.3,21.8 L 64.3,21.8 L 64.2,21.7 L 64.1,21.7 L 64.0,21.7 L 63.9,21.7 L 63.8,21.7 L 63.7,21.7 L 63.7,21.7 L 63.6,21.7 L 63.5,21.8 L 63.4,21.8 L 63.3,21.9 L 63.3,21.9 L 63.2,22.0 L 63.1,22.0 L 63.1,22.1 L 63.0,22.2 L 63.0,22.2 L 62.9,22.3 L 62.9,22.4 L 62.9,22.5 L 62.9,22.6 L 62.9,22.7 L 62.9,22.8 L 62.9,22.9 L 62.9,22.9 L 62.9,23.0 L 62.9,23.1 L 63.0,23.2 L 63.0,23.3 L 63.1,23.3 L 63.1,23.4 L 63.2,23.5 L 63.3,23.5 L 63.3,23.6 L 63.4,23.6 L 63.5,23.7 L 63.6,23.7 L 63.7,23.7 L 63.7,23.7 L 63.8,23.7 L 63.9,23.8 L 64.0,23.7 L 64.1,23.7 L 64.2,23.7 L 64.3,23.7 L 64.3,23.6 L 64.4,23.6 L 64.5,23.6 L 64.6,23.5 L 64.6,23.4 L 64.7,23.4 L 64.7,23.3 L 64.8,23.2 L 64.8,23.1 L 64.9,23.1 L 64.9,23.0 L 64.9,22.9 L 64.9,22.8 L 64.9,22.7 L 63.9,22.7 Z' style='fill:#000000;fill-rule:evenodd;fill-opacity:1;stroke:#000000;stroke-width:0.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1;' />
<path d='M 64.9,26.8 L 64.9,26.8 L 64.9,26.7 L 64.9,26.6 L 64.9,26.5 L 64.8,26.4 L 64.8,26.3 L 64.7,26.3 L 64.7,26.2 L 64.6,26.1 L 64.6,26.1 L 64.5,26.0 L 64.4,26.0 L 64.3,25.9 L 64.3,25.9 L 64.2,25.9 L 64.1,25.8 L 64.0,25.8 L 63.9,25.8 L 63.8,25.8 L 63.7,25.8 L 63.7,25.8 L 63.6,25.9 L 63.5,25.9 L 63.4,25.9 L 63.3,26.0 L 63.3,26.0 L 63.2,26.1 L 63.1,26.2 L 63.1,26.2 L 63.0,26.3 L 63.0,26.4 L 62.9,26.5 L 62.9,26.5 L 62.9,26.6 L 62.9,26.7 L 62.9,26.8 L 62.9,26.9 L 62.9,27.0 L 62.9,27.1 L 62.9,27.2 L 62.9,27.2 L 63.0,27.3 L 63.0,27.4 L 63.1,27.5 L 63.1,27.5 L 63.2,27.6 L 63.3,27.7 L 63.3,27.7 L 63.4,27.8 L 63.5,27.8 L 63.6,27.8 L 63.7,27.9 L 63.7,27.9 L 63.8,27.9 L 63.9,27.9 L 64.0,27.9 L 64.1,27.9 L 64.2,27.8 L 64.3,27.8 L 64.3,27.8 L 64.4,27.7 L 64.5,27.7 L 64.6,27.6 L 64.6,27.6 L 64.7,27.5 L 64.7,27.4 L 64.8,27.4 L 64.8,27.3 L 64.9,27.2 L 64.9,27.1 L 64.9,27.0 L 64.9,26.9 L 64.9,26.8 L 63.9,26.8 Z' style='fill:#000000;fill-rule:evenodd;fill-opacity:1;stroke:#000000;stroke-width:0.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1;' />
<path d='M 64.9,18.6 L 64.9,18.5 L 64.9,18.4 L 64.9,18.3 L 64.9,18.2 L 64.8,18.2 L 64.8,18.1 L 64.7,18.0 L 64.7,17.9 L 64.6,17.9 L 64.6,17.8 L 64.5,17.7 L 64.4,17.7 L 64.3,17.7 L 64.3,17.6 L 64.2,17.6 L 64.1,17.6 L 64.0,17.6 L 63.9,17.6 L 63.8,17.6 L 63.7,17.6 L 63.7,17.6 L 63.6,17.6 L 63.5,17.6 L 63.4,17.7 L 63.3,17.7 L 63.3,17.8 L 63.2,17.8 L 63.1,17.9 L 63.1,18.0 L 63.0,18.0 L 63.0,18.1 L 62.9,18.2 L 62.9,18.3 L 62.9,18.4 L 62.9,18.5 L 62.9,18.5 L 62.9,18.6 L 62.9,18.7 L 62.9,18.8 L 62.9,18.9 L 62.9,19.0 L 63.0,19.1 L 63.0,19.1 L 63.1,19.2 L 63.1,19.3 L 63.2,19.3 L 63.3,19.4 L 63.3,19.4 L 63.4,19.5 L 63.5,19.5 L 63.6,19.6 L 63.7,19.6 L 63.7,19.6 L 63.8,19.6 L 63.9,19.6 L 64.0,19.6 L 64.1,19.6 L 64.2,19.6 L 64.3,19.6 L 64.3,19.5 L 64.4,19.5 L 64.5,19.4 L 64.6,19.4 L 64.6,19.3 L 64.7,19.2 L 64.7,19.2 L 64.8,19.1 L 64.8,19.0 L 64.9,18.9 L 64.9,18.8 L 64.9,18.8 L 64.9,18.7 L 64.9,18.6 L 63.9,18.6 Z' style='fill:#000000;fill-rule:evenodd;fill-opacity:1;stroke:#000000;stroke-width:0.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1;' />
<path d='M 64.9,22.7 L 64.9,22.6 L 64.9,22.5 L 64.9,22.5 L 64.9,22.4 L 64.8,22.3 L 64.8,22.2 L 64.7,22.1 L 64.7,22.1 L 64.6,22.0 L 64.6,21.9 L 64.5,21.9 L 64.4,21.8 L 64.3,21.8 L 64.3,21.8 L 64.2,21.7 L 64.1,21.7 L 64.0,21.7 L 63.9,21.7 L 63.8,21.7 L 63.7,21.7 L 63.7,21.7 L 63.6,21.7 L 63.5,21.8 L 63.4,21.8 L 63.3,21.9 L 63.3,21.9 L 63.2,22.0 L 63.1,22.0 L 63.1,22.1 L 63.0,22.2 L 63.0,22.2 L 62.9,22.3 L 62.9,22.4 L 62.9,22.5 L 62.9,22.6 L 62.9,22.7 L 62.9,22.8 L 62.9,22.9 L 62.9,22.9 L 62.9,23.0 L 62.9,23.1 L 63.0,23.2 L 63.0,23.3 L 63.1,23.3 L 63.1,23.4 L 63.2,23.5 L 63.3,23.5 L 63.3,23.6 L 63.4,23.6 L 63.5,23.7 L 63.6,23.7 L 63.7,23.7 L 63.7,23.7 L 63.8,23.7 L 63.9,23.8 L 64.0,23.7 L 64.1,23.7 L 64.2,23.7 L 64.3,23.7 L 64.3,23.6 L 64.4,23.6 L 64.5,23.6 L 64.6,23.5 L 64.6,23.4 L 64.7,23.4 L 64.7,23.3 L 64.8,23.2 L 64.8,23.1 L 64.9,23.1 L 64.9,23.0 L 64.9,22.9 L 64.9,22.8 L 64.9,22.7 L 63.9,22.7 Z' style='fill:#000000;fill-rule:evenodd;fill-opacity:1;stroke:#000000;stroke-width:0.0px;stroke-linecap:butt;stroke-linejoin:miter;stroke-opacity:1;' />
</svg>
 [Al].FO 0 title abstract description 8
Classifications
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2002/00—Crystal-structural characteristics
- C01P2002/70—Crystal-structural characteristics defined by measured X-ray, neutron or electron diffraction data
- C01P2002/72—Crystal-structural characteristics defined by measured X-ray, neutron or electron diffraction data by d-values or two theta-values, e.g. as X-ray diagram
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2002/00—Crystal-structural characteristics
- C01P2002/80—Crystal-structural characteristics defined by measured data other than those specified in group C01P2002/70
- C01P2002/85—Crystal-structural characteristics defined by measured data other than those specified in group C01P2002/70 by XPS, EDX or EDAX data
-
- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01P—INDEXING SCHEME RELATING TO STRUCTURAL AND PHYSICAL ASPECTS OF SOLID INORGANIC COMPOUNDS
- C01P2002/00—Crystal-structural characteristics
- C01P2002/80—Crystal-structural characteristics defined by measured data other than those specified in group C01P2002/70
- C01P2002/86—Crystal-structural characteristics defined by measured data other than those specified in group C01P2002/70 by NMR- or ESR-data
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Dambournet et al. | Structural investigations and acidic properties of high surface area pyrochlore aluminium hydroxyfluoride | |
| Murayama et al. | Hydrothermal synthesis of octahedra-based layered niobium oxide and its catalytic activity as a solid acid | |
| US10967363B1 (en) | Two-dimensional metal carbide catalyst | |
| Albani et al. | Interfacial acidity in ligand-modified ruthenium nanoparticles boosts the hydrogenation of levulinic acid to gamma-valerolactone | |
| Lueangchaichaweng et al. | High surface area, nanostructured boehmite and alumina catalysts: Synthesis and application in the sustainable epoxidation of alkenes | |
| Salvati Jr et al. | Surface spectroscopic study of tungsten-alumina catalysts using X-ray photoelectron, ion scattering, and Raman spectroscopies | |
| Zahid et al. | Platinum and cobalt intermetallic nanoparticles confined within MIL-101 (Cr) for enhanced selective hydrogenation of the carbonyl bond in α, β-unsaturated aldehydes: synergistic effects of electronically modified Pt sites and Lewis acid sites | |
| Zhu et al. | Ni–Ta–O mixed oxide catalysts for the low temperature oxidative dehydrogenation of ethane to ethylene | |
| Armenta et al. | Dimethyl ether production via methanol dehydration using Fe3O4 and CuO over γ–χ–Al2O3 nanocatalysts | |
| EP2188049B1 (en) | Process for the preparation of a catalyst and use thereof for preparing hydrogen peroxide by hydrogeneation of alkyl anthraquinone | |
| Park et al. | Sodium-free synthesis of mesoporous zeolite to support Pt-Y alloy nanoparticles exhibiting high catalytic performance in propane dehydrogenation | |
| Zhou et al. | Synthesis of Co–Sn intermetallic nanocatalysts toward selective hydrogenation of citral | |
| Brzezińska et al. | Self-tuned properties of CuZnO catalysts for hydroxymethylfurfural hydrodeoxygenation towards dimethylfuran production | |
| Dragoi et al. | Highly dispersed copper (oxide) nanoparticles prepared on SBA-15 partially occluded with the P123 surfactant: toward the design of active hydrogenation catalysts | |
| Cornu et al. | Influence of acid–base properties of Mg-based catalysts on transesterification: role of magnesium silicate hydrate formation | |
| Huang et al. | Highly dispersed CoO x in layered double oxides for oxidative dehydrogenation of propane: guest–host interactions | |
| Francke et al. | Synthesis and characterization of Al 3+, Cr 3+, Fe 3+ and Ga 3+ hydroxyfluorides: correlations between structural features, thermal stability and acidic properties | |
| Danforth et al. | Probing hydrodesulfurization over bimetallic phosphides using monodisperse Ni2-xMxP nanoparticles encapsulated in mesoporous silica | |
| Ding et al. | Topological transformation of LDH nanosheets to highly dispersed PtNiFe nanoalloys enhancing CO oxidation performance | |
| Ren et al. | Highly active Ce, Y, La-modified Cu/SiO 2 catalysts for hydrogenation of methyl acetate to ethanol | |
| Akinnawo et al. | Metal-doped mesoporous ZrO 2 catalyzed chemoselective synthesis of allylic alcohols from Meerwein–Ponndorf–Verley reduction of α, β-unsaturated aldehydes | |
| Kunthakudee et al. | CuAl2O4–CuO–Al2O3 catalysts prepared by flame-spray pyrolysis for glycerol hydrogenolysis | |
| Podolean et al. | SCILLs as selective catalysts for the oxidation of aromatic alcohols | |
| Dambournet et al. | Coupling Sol–Gel Synthesis and Microwave‐Assisted Techniques: A New Route from Amorphous to Crystalline High‐Surface‐Area Aluminium Fluoride | |
| Ali et al. | Nanosized iron and nickel oxide zirconia supported catalysts for benzylation of benzene: Role of metal oxide support interaction |