Silver vanadate(Ag_(0.33)V_(2)O_(5))nanorods were successfully synthesized by the pre-intercalation of Ag+into the interlayer of V_(2)O_(5)through a sol-gel method,which presented a favorable electrochemical performan...Silver vanadate(Ag_(0.33)V_(2)O_(5))nanorods were successfully synthesized by the pre-intercalation of Ag+into the interlayer of V_(2)O_(5)through a sol-gel method,which presented a favorable electrochemical performance of high capacity,rate capacity,and cycle stability.Specific ally,Ag_(0.33)V_(2)O_(5)electrode presented a high capacity of about 311 mAh·g^(-1)at the current density of0.1 A·g^(-1).It also delivered long-term cycling stability(144 mAh·g^(-1)after 500 cycles at 2 A·g^(-1)).The reasons for the superior electrochemical performance were the preintercalation Ag^+extended interlayer distance,and the introduction of elemental silver improved conductivity during charge/discharge.Additionally,the Zn^(2+)storage mechanism was revealed by various characteristic measurements.The prepared Ag_(0.33)V_(2)O_(5)nanorods from the sol-gel method were demonstrated as a promising cathode material for aqueous Zn^(2+)batteries.展开更多
The silkworm Bombyx mori L.is a model organism of the order Lepidoptera.Understanding the mechanism of pesticide resistance in silkworms is valuable for Lepidopteran pest control.In this study,comparative metabolomics...The silkworm Bombyx mori L.is a model organism of the order Lepidoptera.Understanding the mechanism of pesticide resistance in silkworms is valuable for Lepidopteran pest control.In this study,comparative metabolomics was used to analyze the metabolites of 2 silkworm strains with different pesticide resistance levels at 6,12,and 24 h after feeding with fenpropathrin.Twenty-six of 27 metabolites showed significant differences after fenpropathrin treatment and were classified into 6 metabolic pathways:glycerophospholipid metabolism,sulfur metabolism,glycolysis,amino acid metabolism,the urea cycle,and the tricarboxylic acid(TCA)cycle.After analyzing the percentage changes in the metabolic pathways at the 3 time points,sulfur metabolism,glycolysis,and the TCA cycle showed significant responses to fenpropathrin.Confirmatory experiments were performed by feeding silkworms with key metabolites of the 3 pathways.The combination of iron(II)fumarate+folic acid(IF-FA)enhanced fenpropathrin resistance in silkworms 6.38 fold,indicating that the TCA cycle is the core pathway associated with resistance.Furthermore,the disruption of several energy-related metabolic pathways caused by fenpropathrin was shown to be recovered by IF-FA in vitro.Therefore,IF-FA may have a role in boosting silkworm pesticide resistance by modulating the equilibrium between the TCA cycle and its related metabolic pathways.展开更多
基金financially supported by the National Natural Science Foundation of China (No.52101243)the Natural Science Foundation of Guangdong Province (No. 2020A1515010886)the Science and Technology Planning Project of Guangzhou (No.202102010373)
文摘Silver vanadate(Ag_(0.33)V_(2)O_(5))nanorods were successfully synthesized by the pre-intercalation of Ag+into the interlayer of V_(2)O_(5)through a sol-gel method,which presented a favorable electrochemical performance of high capacity,rate capacity,and cycle stability.Specific ally,Ag_(0.33)V_(2)O_(5)electrode presented a high capacity of about 311 mAh·g^(-1)at the current density of0.1 A·g^(-1).It also delivered long-term cycling stability(144 mAh·g^(-1)after 500 cycles at 2 A·g^(-1)).The reasons for the superior electrochemical performance were the preintercalation Ag^+extended interlayer distance,and the introduction of elemental silver improved conductivity during charge/discharge.Additionally,the Zn^(2+)storage mechanism was revealed by various characteristic measurements.The prepared Ag_(0.33)V_(2)O_(5)nanorods from the sol-gel method were demonstrated as a promising cathode material for aqueous Zn^(2+)batteries.
基金the National Natural Science Foundation of China(31802137)the Jiangsu Government Scholarship for Overseas Studies(JS-2019-230)+1 种基金the Zhejiang Provincial Natural Science Foundation(No.LY20C040002)the Postgraduate Research and Practice Innovation Program of Jiangsu Province(SJCX22_1993).
文摘The silkworm Bombyx mori L.is a model organism of the order Lepidoptera.Understanding the mechanism of pesticide resistance in silkworms is valuable for Lepidopteran pest control.In this study,comparative metabolomics was used to analyze the metabolites of 2 silkworm strains with different pesticide resistance levels at 6,12,and 24 h after feeding with fenpropathrin.Twenty-six of 27 metabolites showed significant differences after fenpropathrin treatment and were classified into 6 metabolic pathways:glycerophospholipid metabolism,sulfur metabolism,glycolysis,amino acid metabolism,the urea cycle,and the tricarboxylic acid(TCA)cycle.After analyzing the percentage changes in the metabolic pathways at the 3 time points,sulfur metabolism,glycolysis,and the TCA cycle showed significant responses to fenpropathrin.Confirmatory experiments were performed by feeding silkworms with key metabolites of the 3 pathways.The combination of iron(II)fumarate+folic acid(IF-FA)enhanced fenpropathrin resistance in silkworms 6.38 fold,indicating that the TCA cycle is the core pathway associated with resistance.Furthermore,the disruption of several energy-related metabolic pathways caused by fenpropathrin was shown to be recovered by IF-FA in vitro.Therefore,IF-FA may have a role in boosting silkworm pesticide resistance by modulating the equilibrium between the TCA cycle and its related metabolic pathways.
