Ginkgo flavonoids are one of the most effective medicinal components extracted from leaves of Ginkgo biloba L.According to the physical and chemical properties of ginkgo flavonoids,they can be separated and purified b...Ginkgo flavonoids are one of the most effective medicinal components extracted from leaves of Ginkgo biloba L.According to the physical and chemical properties of ginkgo flavonoids,they can be separated and purified by resin adsorption,supercritical extraction and solvent methods.Previous studies have proved that ginkgo flavonoids have pharmacological functions in promoting blood circulation,anti-oxidation,anti-aging,improving memory,anti-tumor and liver protection,etc.Ginkgo flavonoids have been used clinically to treat angina pectoris,coronary heart disease,myocardial ischemia,hypertension,hyperlipidemia,diabetes,alzheimer's disease,atherosclerosis,gastric cancer and ovarian malignancy and other difficult miscellaneous diseases.展开更多
Overcoming the pH limitation and increasing the catalyst reusability remain pressing demands for metal-lic glass(MG)in wastewater remediation.Herein,Co_(78)Si_(8)B_(14)MG ribbons are used to degrade dye wastew-ater by...Overcoming the pH limitation and increasing the catalyst reusability remain pressing demands for metal-lic glass(MG)in wastewater remediation.Herein,Co_(78)Si_(8)B_(14)MG ribbons are used to degrade dye wastew-ater by activating hydrogen peroxide(H_(2)O_(2))as Fenton-like catalysts.The Co-based MG catalysts exhibit high degradation efficiency under both acidic and alkaline conditions,and the kinetic reaction rate at pH 10(0.176 min^(−1)) and pH 4(0.089 min^(−1)) is 5.9 and 1.2 times higher than that of the extensively studied Fe-based MG catalysts,respectively.Impressively,the Co-based MG catalysts can be reused up to 20-60 times at universal pH conditions,demonstrating fairly good reusability.The newly discovered Co-based MG catalysts do not follow the classical Fenton reactions with H_(2)O^(2) the way Fe-based MGs do.In an acid environment,hydroxyl radicals play a dominant role in the degradation,while in an alkaline environ-ment,the effect of hydroxyl radicals is weakened,and Co^(3+) ions exert a relatively major function on the degradation.The excellent performance in catalytic activity and reusability at universal pH conditions of the Co-based MGs will inspire the development of MGs in wastewater treatment.展开更多
基金Natural Science Foundation Project of Hubei Province(2018CFB406)Talent Introduction Project of Hubei Polytechnic University(19XJK02R)Hubei Provincial Education Department Project(Q20204508).
文摘Ginkgo flavonoids are one of the most effective medicinal components extracted from leaves of Ginkgo biloba L.According to the physical and chemical properties of ginkgo flavonoids,they can be separated and purified by resin adsorption,supercritical extraction and solvent methods.Previous studies have proved that ginkgo flavonoids have pharmacological functions in promoting blood circulation,anti-oxidation,anti-aging,improving memory,anti-tumor and liver protection,etc.Ginkgo flavonoids have been used clinically to treat angina pectoris,coronary heart disease,myocardial ischemia,hypertension,hyperlipidemia,diabetes,alzheimer's disease,atherosclerosis,gastric cancer and ovarian malignancy and other difficult miscellaneous diseases.
基金supported by the National Natural Science Foundation of China(No.51801209)the Natural Science Foundation of Liaoning Province of China(Nos.2019-ZD-0195 and LQN202014)+2 种基金the Natural Science Foundation of Liaoning University(No.LDQN2019020)the Liaoning Revitalization Talents Program(Nos.XLYC1802078 and XLYC1807062)the fund of Qing-dao(No.19-9-2-1-wz).
文摘Overcoming the pH limitation and increasing the catalyst reusability remain pressing demands for metal-lic glass(MG)in wastewater remediation.Herein,Co_(78)Si_(8)B_(14)MG ribbons are used to degrade dye wastew-ater by activating hydrogen peroxide(H_(2)O_(2))as Fenton-like catalysts.The Co-based MG catalysts exhibit high degradation efficiency under both acidic and alkaline conditions,and the kinetic reaction rate at pH 10(0.176 min^(−1)) and pH 4(0.089 min^(−1)) is 5.9 and 1.2 times higher than that of the extensively studied Fe-based MG catalysts,respectively.Impressively,the Co-based MG catalysts can be reused up to 20-60 times at universal pH conditions,demonstrating fairly good reusability.The newly discovered Co-based MG catalysts do not follow the classical Fenton reactions with H_(2)O^(2) the way Fe-based MGs do.In an acid environment,hydroxyl radicals play a dominant role in the degradation,while in an alkaline environ-ment,the effect of hydroxyl radicals is weakened,and Co^(3+) ions exert a relatively major function on the degradation.The excellent performance in catalytic activity and reusability at universal pH conditions of the Co-based MGs will inspire the development of MGs in wastewater treatment.
