455-38-9Relevant articles and documents
On the difference in the results of reductive defluorination of pentafluorobenzoic acid by sodium and zinc in liquid ammonia medium
Laev,Laev, Sergey S.,Shteingarts,Shteingarts, Vitalij D.,Bilkis,Bilkis, Isaak I.
, p. 4655 - 4658 (1995)
Under the reduction of pentafluorobenzoic acid in liquid ammonia by sodium the deep defluorination with removal of three or more fluorine atoms has been observed, whereas with zinc only the product of para-defluorination has been obtained.
Photoinduced FeCl3-Catalyzed Alkyl Aromatics Oxidation toward Degradation of Polystyrene at Room Temperature?
Zhang, Guoxiang,Zhang, Zongnan,Zeng, Rong
supporting information, p. 3225 - 3230 (2021/09/28)
While polystyrene is widely used in daily life as a synthetic plastic, the subsequently selective degradation is still very challenging and highly required. Herein, we disclose a highly practical and selective reaction for the catalytically efficient oxidation of alkyl aromatics (including 1°, 2°, and 3° alkyl aromatics) to carboxylic acids. While dioxygen was used as the sole terminal oxidant, this protocol was catalyzed by the inexpensive and readily available ferric compound (FeCl3) with irradiation of visible light (blue LEDs) under only 1 atmosphere of O2 at room temperature. This system could further facilitate the selective degradation of polystyrene to benzoic acid, providing an important and practical tool to generate high-value chemical from abundant polystyrene wastes.
Meso-Carbazole substituted palladium porphyrins: Efficient catalysts for visible light induced oxidation of aldehydes
Janaagal, Anu,Pandey, Vijayalakshmi,Sabharwal, Sudhir,Gupta, Iti
, p. 571 - 581 (2021/05/05)
The A3B and A2B2 type porphyrins having N-butylcarbazole and p-cyanophenyl groups are synthesized and characterized. Their palladium complexes have also been prepared and utilized as catalysts for the photo-oxidation reactions of aromatic aldehydes in good yields. Pd(II)porphyrins displayed decent phosphorescence at a670 nm and were able to generate singlet oxygen upon light irradiation. The calculated singlet oxygen quantum yields for Pd(II)porphyrins were between 57% and 73%. The photo-catalytic application of Pd(II)porphyrins for aerobic oxidation of aromatic aldehydes is demonstrated.