Using High-Power UV-LED to Accelerate a Decatungstate-Anion-Catalyzed Reaction: A Model Study for the Quick Oxidation of Benzyl Alcohol to Benzoic Acid Using Molecular Oxygen
High-power UV-LED irradiation (365 nm) effectively accelerated the decatungstate-anion-catalyzed oxidation of benzyl alcohol <b>1</b> to benzoic acid <b>3</b> via benzaldehyde <b>2</b>. As the power of the UV-LED light increased, both the selectivity and yield of...
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MDPI AG
2021
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oai:doaj.org-article:2f35f3f201ed42ebb78e7112e50d2c6e2021-11-25T18:22:59ZUsing High-Power UV-LED to Accelerate a Decatungstate-Anion-Catalyzed Reaction: A Model Study for the Quick Oxidation of Benzyl Alcohol to Benzoic Acid Using Molecular Oxygen10.3390/mi121113072072-666Xhttps://doaj.org/article/2f35f3f201ed42ebb78e7112e50d2c6e2021-10-01T00:00:00Zhttps://www.mdpi.com/2072-666X/12/11/1307https://doaj.org/toc/2072-666XHigh-power UV-LED irradiation (365 nm) effectively accelerated the decatungstate-anion-catalyzed oxidation of benzyl alcohol <b>1</b> to benzoic acid <b>3</b> via benzaldehyde <b>2</b>. As the power of the UV-LED light increased, both the selectivity and yield of benzoic acid also increased. The reaction was finished within 1 h to give <b>3</b> in a 93% yield using 2 mol% of decatungstate anion catalyst. The combination of a flow photoreactor and high-power irradiation accelerated the oxidation reaction to an interval of only a few minutes.Mamoru HyodoHitomi IwanoTakayoshi KasakadoTakahide FukuyamaIlhyong RyuMDPI AGarticlemolecular oxygenoxidationhigh power UV-LEDbenzyl alcoholbenzoic acidMechanical engineering and machineryTJ1-1570ENMicromachines, Vol 12, Iss 1307, p 1307 (2021) |
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molecular oxygen oxidation high power UV-LED benzyl alcohol benzoic acid Mechanical engineering and machinery TJ1-1570 |
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molecular oxygen oxidation high power UV-LED benzyl alcohol benzoic acid Mechanical engineering and machinery TJ1-1570 Mamoru Hyodo Hitomi Iwano Takayoshi Kasakado Takahide Fukuyama Ilhyong Ryu Using High-Power UV-LED to Accelerate a Decatungstate-Anion-Catalyzed Reaction: A Model Study for the Quick Oxidation of Benzyl Alcohol to Benzoic Acid Using Molecular Oxygen |
| description |
High-power UV-LED irradiation (365 nm) effectively accelerated the decatungstate-anion-catalyzed oxidation of benzyl alcohol <b>1</b> to benzoic acid <b>3</b> via benzaldehyde <b>2</b>. As the power of the UV-LED light increased, both the selectivity and yield of benzoic acid also increased. The reaction was finished within 1 h to give <b>3</b> in a 93% yield using 2 mol% of decatungstate anion catalyst. The combination of a flow photoreactor and high-power irradiation accelerated the oxidation reaction to an interval of only a few minutes. |
| format |
article |
| author |
Mamoru Hyodo Hitomi Iwano Takayoshi Kasakado Takahide Fukuyama Ilhyong Ryu |
| author_facet |
Mamoru Hyodo Hitomi Iwano Takayoshi Kasakado Takahide Fukuyama Ilhyong Ryu |
| author_sort |
Mamoru Hyodo |
| title |
Using High-Power UV-LED to Accelerate a Decatungstate-Anion-Catalyzed Reaction: A Model Study for the Quick Oxidation of Benzyl Alcohol to Benzoic Acid Using Molecular Oxygen |
| title_short |
Using High-Power UV-LED to Accelerate a Decatungstate-Anion-Catalyzed Reaction: A Model Study for the Quick Oxidation of Benzyl Alcohol to Benzoic Acid Using Molecular Oxygen |
| title_full |
Using High-Power UV-LED to Accelerate a Decatungstate-Anion-Catalyzed Reaction: A Model Study for the Quick Oxidation of Benzyl Alcohol to Benzoic Acid Using Molecular Oxygen |
| title_fullStr |
Using High-Power UV-LED to Accelerate a Decatungstate-Anion-Catalyzed Reaction: A Model Study for the Quick Oxidation of Benzyl Alcohol to Benzoic Acid Using Molecular Oxygen |
| title_full_unstemmed |
Using High-Power UV-LED to Accelerate a Decatungstate-Anion-Catalyzed Reaction: A Model Study for the Quick Oxidation of Benzyl Alcohol to Benzoic Acid Using Molecular Oxygen |
| title_sort |
using high-power uv-led to accelerate a decatungstate-anion-catalyzed reaction: a model study for the quick oxidation of benzyl alcohol to benzoic acid using molecular oxygen |
| publisher |
MDPI AG |
| publishDate |
2021 |
| url |
https://doaj.org/article/2f35f3f201ed42ebb78e7112e50d2c6e |
| work_keys_str_mv |
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| _version_ |
1718411246935474176 |