Enzymatic production of ecodiesel by using a commercial lipase CALB, immobilized by physical adsorption on mesoporous organosilica materials
The synthesis of two biocatalysts based on a commercial Candida antarctica lipase B, CALB enzyme (E), physically immobilized on two silica supports, was carried out. The first support was a periodic mesoporous organosilica (PMO) and the second one was a commercial silica modified with octyl groups (...
| Main Authors: | , , , , , , , , , |
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| Format: | Other Non-Article Part of Journal/Newspaper |
| Language: | unknown |
| Published: |
2021
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| Subjects: | |
| Online Access: | https://figshare.com/articles/journal_contribution/Enzymatic_production_of_ecodiesel_by_using_a_commercial_lipase_CALB_immobilized_by_physical_adsorption_on_mesoporous_organosilica_materials/19883938 |
| _version_ | 1821612065151778816 |
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| author | Carlos Luna Victoria Gascón-Pérez Francisco J. López-Tenllado Felipa M. Bautista Cristóbal Verdugo-Escamilla Laura Aguado-Deblas Juan Calero Antonio A. Romero Diego Luna Rafael Estévez |
| author_facet | Carlos Luna Victoria Gascón-Pérez Francisco J. López-Tenllado Felipa M. Bautista Cristóbal Verdugo-Escamilla Laura Aguado-Deblas Juan Calero Antonio A. Romero Diego Luna Rafael Estévez |
| author_sort | Carlos Luna |
| collection | Research from University of Limerick |
| description | The synthesis of two biocatalysts based on a commercial Candida antarctica lipase B, CALB enzyme (E), physically immobilized on two silica supports, was carried out. The first support was a periodic mesoporous organosilica (PMO) and the second one was a commercial silica modified with octyl groups (octyl-MS3030). The maximum enzyme load was 122 mg enzyme/g support on PMO and 288 mg enzyme/g support on octyl-MS3030. In addition, the biocatalytic efficiency was corroborated by two reaction tests based on the hydrolysis of p-nitrophenylacetate (p-NPA) and tributyrin (TB). The transesterification of sunflower oil with ethanol was carried out over the biocatalysts synthesized at the following reaction conditions: 6 mL sunflower oil, 1.75 mL EtOH, 30 ◦C, 25 µL NaOH 10 N and 300 rpm, attaining conversion values over 80% after 3 h of reaction time. According to the results obtained, we can confirm that these biocatalytic systems are viable candidates to develop, optimize and improve a new methodology to achieve the integration of glycerol in different monoacylglycerol molecules together with fatty acid ethyl esters (FAEE) molecules to obtain Ecodiesel. |
| format | Other Non-Article Part of Journal/Newspaper |
| genre | Antarc* Antarctica |
| genre_facet | Antarc* Antarctica |
| id | ftunivlimericfig:oai:figshare.com:article/19883938 |
| institution | Open Polar |
| language | unknown |
| op_collection_id | ftunivlimericfig |
| op_relation | 10344/10788 https://figshare.com/articles/journal_contribution/Enzymatic_production_of_ecodiesel_by_using_a_commercial_lipase_CALB_immobilized_by_physical_adsorption_on_mesoporous_organosilica_materials/19883938 |
| op_rights | CC BY-NC-SA 1.0 |
| op_rightsnorm | CC-BY-NC-SA |
| publishDate | 2021 |
| record_format | openpolar |
| spelling | ftunivlimericfig:oai:figshare.com:article/19883938 2025-01-16T19:09:31+00:00 Enzymatic production of ecodiesel by using a commercial lipase CALB, immobilized by physical adsorption on mesoporous organosilica materials Carlos Luna Victoria Gascón-Pérez Francisco J. López-Tenllado Felipa M. Bautista Cristóbal Verdugo-Escamilla Laura Aguado-Deblas Juan Calero Antonio A. Romero Diego Luna Rafael Estévez 2021-01-01T00:00:00Z https://figshare.com/articles/journal_contribution/Enzymatic_production_of_ecodiesel_by_using_a_commercial_lipase_CALB_immobilized_by_physical_adsorption_on_mesoporous_organosilica_materials/19883938 unknown 10344/10788 https://figshare.com/articles/journal_contribution/Enzymatic_production_of_ecodiesel_by_using_a_commercial_lipase_CALB_immobilized_by_physical_adsorption_on_mesoporous_organosilica_materials/19883938 CC BY-NC-SA 1.0 CC-BY-NC-SA biofuel ecodiesel biodiesel Text Journal contribution 2021 ftunivlimericfig 2022-12-28T08:36:24Z The synthesis of two biocatalysts based on a commercial Candida antarctica lipase B, CALB enzyme (E), physically immobilized on two silica supports, was carried out. The first support was a periodic mesoporous organosilica (PMO) and the second one was a commercial silica modified with octyl groups (octyl-MS3030). The maximum enzyme load was 122 mg enzyme/g support on PMO and 288 mg enzyme/g support on octyl-MS3030. In addition, the biocatalytic efficiency was corroborated by two reaction tests based on the hydrolysis of p-nitrophenylacetate (p-NPA) and tributyrin (TB). The transesterification of sunflower oil with ethanol was carried out over the biocatalysts synthesized at the following reaction conditions: 6 mL sunflower oil, 1.75 mL EtOH, 30 ◦C, 25 µL NaOH 10 N and 300 rpm, attaining conversion values over 80% after 3 h of reaction time. According to the results obtained, we can confirm that these biocatalytic systems are viable candidates to develop, optimize and improve a new methodology to achieve the integration of glycerol in different monoacylglycerol molecules together with fatty acid ethyl esters (FAEE) molecules to obtain Ecodiesel. Other Non-Article Part of Journal/Newspaper Antarc* Antarctica Research from University of Limerick |
| spellingShingle | biofuel ecodiesel biodiesel Carlos Luna Victoria Gascón-Pérez Francisco J. López-Tenllado Felipa M. Bautista Cristóbal Verdugo-Escamilla Laura Aguado-Deblas Juan Calero Antonio A. Romero Diego Luna Rafael Estévez Enzymatic production of ecodiesel by using a commercial lipase CALB, immobilized by physical adsorption on mesoporous organosilica materials |
| title | Enzymatic production of ecodiesel by using a commercial lipase CALB, immobilized by physical adsorption on mesoporous organosilica materials |
| title_full | Enzymatic production of ecodiesel by using a commercial lipase CALB, immobilized by physical adsorption on mesoporous organosilica materials |
| title_fullStr | Enzymatic production of ecodiesel by using a commercial lipase CALB, immobilized by physical adsorption on mesoporous organosilica materials |
| title_full_unstemmed | Enzymatic production of ecodiesel by using a commercial lipase CALB, immobilized by physical adsorption on mesoporous organosilica materials |
| title_short | Enzymatic production of ecodiesel by using a commercial lipase CALB, immobilized by physical adsorption on mesoporous organosilica materials |
| title_sort | enzymatic production of ecodiesel by using a commercial lipase calb, immobilized by physical adsorption on mesoporous organosilica materials |
| topic | biofuel ecodiesel biodiesel |
| topic_facet | biofuel ecodiesel biodiesel |
| url | https://figshare.com/articles/journal_contribution/Enzymatic_production_of_ecodiesel_by_using_a_commercial_lipase_CALB_immobilized_by_physical_adsorption_on_mesoporous_organosilica_materials/19883938 |