Balancing the adsorption of OH⁻and 5-hydroxymethylfurfural(HMF)is crucial in optimizing the competing HMF oxidation reaction and oxygen evolution reaction,especially given the polymerization tendency of HMF in alkalin...Balancing the adsorption of OH⁻and 5-hydroxymethylfurfural(HMF)is crucial in optimizing the competing HMF oxidation reaction and oxygen evolution reaction,especially given the polymerization tendency of HMF in alkaline solutions.Herein,we present an innovative approach for rapidly synthesizing a NiFe bimetallic metalorganic framework(MOF)induced by electron-withdrawing carbon quantum dot(EW-CQD)via electron beam irradiation within 2 min.EW-CQD serve as structural regulators,expanding the NiFe-MOF interlayer spacing,increasing reactive site availability,and more effectively balancing the adsorption of OH6(-) and HMF,thereby significantly boosting the oxidation activity of HMF.The resulting EW-CQD-MOF exhibits a low potential of 1.36 V vs.RHE at 10 mA cm^(-2)and maintains excellent durability over 120 h.Comprehensive in situ characterization elucidates the HMF oxidation reaction pathway,showing high selectivity towards 2,5-furandicarboxylic acid(FDCA)under ambient conditions,with an impressive HMF conversion rate of 94%and FDCA selectivity of 96%within 6 h.These findings underscore the critical role of structural optimization and adsorption balance in catalytic performance enhancement and offer valuable insights for designing high-efficiency catalysts,advancing sustainable catalytic processes.展开更多
Ursolic acid(UA) and oleanolic acid(OA) are insoluble drugs. The objective of this study was to encapsulate them into β-cyclodextrin(β-CD) and compare the solubility and intermolecular force of β-CD with the two is...Ursolic acid(UA) and oleanolic acid(OA) are insoluble drugs. The objective of this study was to encapsulate them into β-cyclodextrin(β-CD) and compare the solubility and intermolecular force of β-CD with the two isomeric triterpenic acids. The host-vip interaction was explored in liquid and solid state by ultraviolet-visible absorption,1H NMR, phase solubility analysis, and differential scanning calorimetry, X-ray powder diffractometry, and molecular modeling studies. Both experimental and theoretical studies revealed that β-CD formed 1: 1 water soluble inclusion complexes and the complexation process was naturally favorable. In addition, the overall results suggested that ring E with a carboxyl group of the drug was encapsulated into the hydrophobic CD nanocavity. Therefore, a clear different inclusion behavior was observed, and UA exhibited better affinity to β-CD compared with OA in various media due to little steric interference, which was beneficial to form stable inclusion complex with β-CD and increase its water solubility effectively.展开更多
The present study aimed to develop and optimize chitosan coated solid lipid nanoparticles(chitosan-SLNs)encapsulated with methazolamide. Chitosan-SLNs were successfully prepared by a modified oil-in-water emulsificati...The present study aimed to develop and optimize chitosan coated solid lipid nanoparticles(chitosan-SLNs)encapsulated with methazolamide. Chitosan-SLNs were successfully prepared by a modified oil-in-water emulsification-solvent evaporation method with glyceryl monostearate as the solid lipid and phospholipid as the surfactant. Systematic screening of formulation factors was carried out. The optimized formula for preparation was screened by orthogonal design as well as Box-Behnken design with entrapment efficiency, particle size and zeta potential as the indexes. The entrapment efficiency of the optimized formulation(methazolamide-chitosan-SLNs)prepared was(58.5± 4.5)%,Particle size(247.7 ± 17.3) nm and zeta potential(33.5 ±3.9) mV. Transmission electron microscopy showed homogeneous spherical particles in the nanometer range. A prolonged methazolamide in vitro release profile was obtained in the optimized chitosan-SLNs suspension compared with methazolamide solution. No ocular damages were observed in the susceptibility test on albino rabbits. The results suggest that the combination of orthogonal design and Box-Behnken design is efficient and reliable in the optimization of nanocarriers, and chitosanSLNs is a potential carrier for ophthalmic administration.展开更多
基金funded by Shanghai Pujiang Program(21PJD022)Hunan Provincial Natural Science Foundation(2023JJ60522).
文摘Balancing the adsorption of OH⁻and 5-hydroxymethylfurfural(HMF)is crucial in optimizing the competing HMF oxidation reaction and oxygen evolution reaction,especially given the polymerization tendency of HMF in alkaline solutions.Herein,we present an innovative approach for rapidly synthesizing a NiFe bimetallic metalorganic framework(MOF)induced by electron-withdrawing carbon quantum dot(EW-CQD)via electron beam irradiation within 2 min.EW-CQD serve as structural regulators,expanding the NiFe-MOF interlayer spacing,increasing reactive site availability,and more effectively balancing the adsorption of OH6(-) and HMF,thereby significantly boosting the oxidation activity of HMF.The resulting EW-CQD-MOF exhibits a low potential of 1.36 V vs.RHE at 10 mA cm^(-2)and maintains excellent durability over 120 h.Comprehensive in situ characterization elucidates the HMF oxidation reaction pathway,showing high selectivity towards 2,5-furandicarboxylic acid(FDCA)under ambient conditions,with an impressive HMF conversion rate of 94%and FDCA selectivity of 96%within 6 h.These findings underscore the critical role of structural optimization and adsorption balance in catalytic performance enhancement and offer valuable insights for designing high-efficiency catalysts,advancing sustainable catalytic processes.
基金supported by grants from the National Natural Science Foundation of China (21303086)the Natural Science Foundation of Jiangsu Province (BK20130884)the Research Fund for Doctoral Program of Higher Education (20123234120012)
文摘Ursolic acid(UA) and oleanolic acid(OA) are insoluble drugs. The objective of this study was to encapsulate them into β-cyclodextrin(β-CD) and compare the solubility and intermolecular force of β-CD with the two isomeric triterpenic acids. The host-vip interaction was explored in liquid and solid state by ultraviolet-visible absorption,1H NMR, phase solubility analysis, and differential scanning calorimetry, X-ray powder diffractometry, and molecular modeling studies. Both experimental and theoretical studies revealed that β-CD formed 1: 1 water soluble inclusion complexes and the complexation process was naturally favorable. In addition, the overall results suggested that ring E with a carboxyl group of the drug was encapsulated into the hydrophobic CD nanocavity. Therefore, a clear different inclusion behavior was observed, and UA exhibited better affinity to β-CD compared with OA in various media due to little steric interference, which was beneficial to form stable inclusion complex with β-CD and increase its water solubility effectively.
基金supported by grants from the National Natural Science Foundation of China(81100977)
文摘The present study aimed to develop and optimize chitosan coated solid lipid nanoparticles(chitosan-SLNs)encapsulated with methazolamide. Chitosan-SLNs were successfully prepared by a modified oil-in-water emulsification-solvent evaporation method with glyceryl monostearate as the solid lipid and phospholipid as the surfactant. Systematic screening of formulation factors was carried out. The optimized formula for preparation was screened by orthogonal design as well as Box-Behnken design with entrapment efficiency, particle size and zeta potential as the indexes. The entrapment efficiency of the optimized formulation(methazolamide-chitosan-SLNs)prepared was(58.5± 4.5)%,Particle size(247.7 ± 17.3) nm and zeta potential(33.5 ±3.9) mV. Transmission electron microscopy showed homogeneous spherical particles in the nanometer range. A prolonged methazolamide in vitro release profile was obtained in the optimized chitosan-SLNs suspension compared with methazolamide solution. No ocular damages were observed in the susceptibility test on albino rabbits. The results suggest that the combination of orthogonal design and Box-Behnken design is efficient and reliable in the optimization of nanocarriers, and chitosanSLNs is a potential carrier for ophthalmic administration.
