This paper studies the photosensitive effect of cerium oxide on the precipitation of Ag nanoparticles after femtosecond laser irradiating into silicate glass and successive annealing.Spectroscopy analysis and diffract...This paper studies the photosensitive effect of cerium oxide on the precipitation of Ag nanoparticles after femtosecond laser irradiating into silicate glass and successive annealing.Spectroscopy analysis and diffraction efficiency measurements show that the introduction of cerium oxide may increase the concentration of Ag atoms in the femtosecond laser-irradiated regions resulting from the photoreduction reaction Ce^3+ + Ag^+ → Ce^4+ + Ag^0 via multiphoton excitation.These results promote the aggregation of Ag nanopartieles during the annealing process. It is also found that different concentrations of cerium oxide may influence the Ag nanoparticle precipitation in the corresponding glass.展开更多
To reveal the nature of locusts’visual reaction when stimulated by light,and to clarify the regulation characteristics of locusts’phototactic visual physiology and obtain good spectral light features for locusts’ph...To reveal the nature of locusts’visual reaction when stimulated by light,and to clarify the regulation characteristics of locusts’phototactic visual physiology and obtain good spectral light features for locusts’phototactic action,this study investigated locusts’visual spectrum response by characterizing their photoreceptive reaction to LED light using an AvaSpec fiber-optic spectrometer system.Locusts’phototactic response to spectral light was compared using this system.The results showed that locusts’visual reaction characterization presents a photo-induced vision spectrum effect and that by offsetting the main wavelength of light and the spectral peak intensity,a time-varying bio-regulation effect emerges.In addition,locusts’visual regulation ability to UV light is higher than that to violet light,whereas their reaction intensity is lower than to violet light,and the visual bio-regulatory force of locusts’visual system absorbing orange light to react sensitively becomes gradually higher than when absorbing green light as time goes on.Moreover,corresponding to nominal illumination with the same radiant energy and a visual spectrum response stimulated by UV,violet,orange,and green light,it appears that the visual spectrum window is symmetrical around 382 nm,400 nm,602 nm,and 530 nm,respectively,with no significant difference between spectral amplitudes and having a time-varying incremental characteristic with amplitude peak width.This indicates that the stimulus intensity of UV,violet,orange,and green light exceeds locusts’visual tolerance,causing them to generate regulation inactivation as a visual physiological reaction,whereas the visual window response effect stimulated by UV light presents an illumination timeliness effect.Simultaneously,time-varying characteristics of locusts’bio-behavior intensity show that light intensity can make up for locusts’visual sensitivity differences at various spectral wavelengths.Presented with differential response time,photosensitive behavior intensity,and induction effect induced by orange light,time is superior for orange light,the stimulation effect caused by violet light is the strongest,and the phototactic synergy effect caused by UV light is the best.展开更多
This study investigated the independent and combined effects of photodynamic therapy (PDT), laser photodynamic hyperthermia (LPDH) and 1-(4-amino-2-methyl-5-pyrimidinyl) methy1-3-(2-chloroethyl) -3-nitrosourea hydroch...This study investigated the independent and combined effects of photodynamic therapy (PDT), laser photodynamic hyperthermia (LPDH) and 1-(4-amino-2-methyl-5-pyrimidinyl) methy1-3-(2-chloroethyl) -3-nitrosourea hydrochloride (ACNU) in a rat 9L induced gliosarcoma model. The mortality rate (MR60), mean survival time (MST60), and increasing life span (ILS60) within 60 days were determined to evaluate the therapeutic effect in vivo. The MR60 and MST60 of the gliosarcoma tumor control were 100% and 16.2 days. The ILS60s of PDT and ACNU were 72.84% and 49.81%, respectively, but MR60 of both were 86.72%. All combined treatments produced significantly prolonged survival (P<0.01). The combined effects of LPDH and ACNU, MR60, MST60, and ILS60 were 60%, 43 days, and 165.4%, respectively. The ILS60 of PDT+ACNU (96.48%) and PDT+LPDH (98.58%) also indicated a synergistic or additive effect. The survival fraction and synthetic rate of DNA, RNA, and protein of glioma 9L tumor cells in vitro after single treatment of PDT or combined with antitumor drugs and laser showed that the cytotoxicity of PDT to 9L tumor cell was obvious by using Rh123, HPD, and Pf-Ⅱ as photosensitizers. Combined treatments of PDT, antitumor drugs, and laser suppressed the synthesis of DNA, RNA, and protein more significantly than single treatment with PDT.展开更多
基金Project supported by the National Basic Research Program of China (Grant No 2006CB806000b)the Shanghai Leading Academic Discipline Project (Grant No S30105)
文摘This paper studies the photosensitive effect of cerium oxide on the precipitation of Ag nanoparticles after femtosecond laser irradiating into silicate glass and successive annealing.Spectroscopy analysis and diffraction efficiency measurements show that the introduction of cerium oxide may increase the concentration of Ag atoms in the femtosecond laser-irradiated regions resulting from the photoreduction reaction Ce^3+ + Ag^+ → Ce^4+ + Ag^0 via multiphoton excitation.These results promote the aggregation of Ag nanopartieles during the annealing process. It is also found that different concentrations of cerium oxide may influence the Ag nanoparticle precipitation in the corresponding glass.
基金The authors acknowledge that this work was financially supported by the Scientific and technological project in Henan Province(Grant No.212102110139)the China Agricultural Research System(Grant No.CARS-03)the Henan Engineering Research Center of Biological Pesticide&Fertilizer Development and Synergistic Application.
文摘To reveal the nature of locusts’visual reaction when stimulated by light,and to clarify the regulation characteristics of locusts’phototactic visual physiology and obtain good spectral light features for locusts’phototactic action,this study investigated locusts’visual spectrum response by characterizing their photoreceptive reaction to LED light using an AvaSpec fiber-optic spectrometer system.Locusts’phototactic response to spectral light was compared using this system.The results showed that locusts’visual reaction characterization presents a photo-induced vision spectrum effect and that by offsetting the main wavelength of light and the spectral peak intensity,a time-varying bio-regulation effect emerges.In addition,locusts’visual regulation ability to UV light is higher than that to violet light,whereas their reaction intensity is lower than to violet light,and the visual bio-regulatory force of locusts’visual system absorbing orange light to react sensitively becomes gradually higher than when absorbing green light as time goes on.Moreover,corresponding to nominal illumination with the same radiant energy and a visual spectrum response stimulated by UV,violet,orange,and green light,it appears that the visual spectrum window is symmetrical around 382 nm,400 nm,602 nm,and 530 nm,respectively,with no significant difference between spectral amplitudes and having a time-varying incremental characteristic with amplitude peak width.This indicates that the stimulus intensity of UV,violet,orange,and green light exceeds locusts’visual tolerance,causing them to generate regulation inactivation as a visual physiological reaction,whereas the visual window response effect stimulated by UV light presents an illumination timeliness effect.Simultaneously,time-varying characteristics of locusts’bio-behavior intensity show that light intensity can make up for locusts’visual sensitivity differences at various spectral wavelengths.Presented with differential response time,photosensitive behavior intensity,and induction effect induced by orange light,time is superior for orange light,the stimulation effect caused by violet light is the strongest,and the phototactic synergy effect caused by UV light is the best.
文摘This study investigated the independent and combined effects of photodynamic therapy (PDT), laser photodynamic hyperthermia (LPDH) and 1-(4-amino-2-methyl-5-pyrimidinyl) methy1-3-(2-chloroethyl) -3-nitrosourea hydrochloride (ACNU) in a rat 9L induced gliosarcoma model. The mortality rate (MR60), mean survival time (MST60), and increasing life span (ILS60) within 60 days were determined to evaluate the therapeutic effect in vivo. The MR60 and MST60 of the gliosarcoma tumor control were 100% and 16.2 days. The ILS60s of PDT and ACNU were 72.84% and 49.81%, respectively, but MR60 of both were 86.72%. All combined treatments produced significantly prolonged survival (P<0.01). The combined effects of LPDH and ACNU, MR60, MST60, and ILS60 were 60%, 43 days, and 165.4%, respectively. The ILS60 of PDT+ACNU (96.48%) and PDT+LPDH (98.58%) also indicated a synergistic or additive effect. The survival fraction and synthetic rate of DNA, RNA, and protein of glioma 9L tumor cells in vitro after single treatment of PDT or combined with antitumor drugs and laser showed that the cytotoxicity of PDT to 9L tumor cell was obvious by using Rh123, HPD, and Pf-Ⅱ as photosensitizers. Combined treatments of PDT, antitumor drugs, and laser suppressed the synthesis of DNA, RNA, and protein more significantly than single treatment with PDT.
