Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR-MS) was used to determine the structures of anhydroicaritin glycosides by the MS/MS experiments of anhydroicaritin glycosides and their methylated de...Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR-MS) was used to determine the structures of anhydroicaritin glycosides by the MS/MS experiments of anhydroicaritin glycosides and their methylated derivatives. With high accuracy FT-ICR-MS provides much information about the structures of compounds, FT-ICR-MS shows the great potential application in the structural characterization of unknown compounds.展开更多
1-Imino nitroxide pyrene 1 has been characterized as a H^+ fluorescent switch. The effects of various interfering species, solvents and the irradiation of ultraviolet light on the fluorescence intensity of 1 are also...1-Imino nitroxide pyrene 1 has been characterized as a H^+ fluorescent switch. The effects of various interfering species, solvents and the irradiation of ultraviolet light on the fluorescence intensity of 1 are also investigated. 1 fluoresces weakly in the 85% ethanol media containing no more than 4.5x10-5 mol/L of H^+ (HCI), but can produce a burst increase of about 4 times in the fluorescence intensity when the concentration of H+ is increased to or over 4.9×10^-5mol/L. The extremely sharp response of 1 to H+ occurs only within such a narrow concentration range. Moreover, the decrease of H^+ concentration through adding sodium hydroxide causes the fluorescence quenching, suggesting that 1 may serve as a fluorescent switch for monitoring the concentration change of H+ around the point of 4.5×10^-5 mol/L.展开更多
基金supported by the National Nalural Scicntilic Foundation of China(No.20035010 and 20l75033).
文摘Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR-MS) was used to determine the structures of anhydroicaritin glycosides by the MS/MS experiments of anhydroicaritin glycosides and their methylated derivatives. With high accuracy FT-ICR-MS provides much information about the structures of compounds, FT-ICR-MS shows the great potential application in the structural characterization of unknown compounds.
基金supported financially by NSFC(Nos.90717120 and 20435030),MOST(No.2007CB714504)Sino German Center for Research Promotion(No.GZ364) and CAS(No.KJCX2-YW-H11).
基金Financial support from the NNSF of China(Nos.20375044 and 20435030)the Chinese Academy of Sciences(KJCX2-SW-H06)is acknowledged.
文摘1-Imino nitroxide pyrene 1 has been characterized as a H^+ fluorescent switch. The effects of various interfering species, solvents and the irradiation of ultraviolet light on the fluorescence intensity of 1 are also investigated. 1 fluoresces weakly in the 85% ethanol media containing no more than 4.5x10-5 mol/L of H^+ (HCI), but can produce a burst increase of about 4 times in the fluorescence intensity when the concentration of H+ is increased to or over 4.9×10^-5mol/L. The extremely sharp response of 1 to H+ occurs only within such a narrow concentration range. Moreover, the decrease of H^+ concentration through adding sodium hydroxide causes the fluorescence quenching, suggesting that 1 may serve as a fluorescent switch for monitoring the concentration change of H+ around the point of 4.5×10^-5 mol/L.
