Protein has been used as the carrier for protecting and targeting polyphenols and increasing their shelf-life.Interactions of a protein molecule with polyphenols are important,which change functions and physiochemical...Protein has been used as the carrier for protecting and targeting polyphenols and increasing their shelf-life.Interactions of a protein molecule with polyphenols are important,which change functions and physiochemical properties of the complex and provide protection to polyphenols.Interactions between proteins and polyphenols are largely non-covalent.Factors that affect such interactions include pH,temperature,and the structure of both proteins and polyphenols.Moreover,excellent stability of polyphenols can be achieved by using nanoencapsulation techniques such as emulsion,nanohydrogel,and nanocomplex formation.The use of protein combined with other compounds such as lipids and carbohydrates was found to be the most suitable carrier for polyphenols encapsulation.This review aims to describe the interaction between proteins and polyphenols,focusing on applying nanoencapsulation for increasing stability and targeted delivery of phenolic compounds.展开更多
Numerical simulation of diode-pumped Q-switched Nd:YAG laser leading to the generation of eye-safe signal in singly resonant Intracavity Optical Parametric Oscillator (IOPO) is presented. Starting from rate equations,...Numerical simulation of diode-pumped Q-switched Nd:YAG laser leading to the generation of eye-safe signal in singly resonant Intracavity Optical Parametric Oscillator (IOPO) is presented. Starting from rate equations, the time dependent laser equations have been solved numerically, whereas the space-dependent OPO equations analytically. Our results show that 1.4 J diode laser (810 nm) pulse with 200 msec width, delivers 30 mJ Nd:YAG laser (1064 nm) pulse with 5 n-second width. This Nd:YAG laser further generates 9 mJ eye safe signal (1570 nm) pulse with 2.5 n-second width.展开更多
Dynamic instability of decentralized wind energy farms is a major issue to deliver continuous green energy to electricity consumers.This instability is caused by variations of voltage and frequency parameters due to i...Dynamic instability of decentralized wind energy farms is a major issue to deliver continuous green energy to electricity consumers.This instability is caused by variations of voltage and frequency parameters due to intermittencies in wind power.Previously,droop control and inverter-based schemes have been proposed to regulate the voltage by balancing reactive power,while inertial control,digital mapping tech-nique of proportional-integral-differential(PID)controller and efficiency control strategy have been developed to regulate the frequency.In this paper,voltage stability is improved by a new joint strategy of distribution static compensator(DSTATCOM)six-pulse controller based reactive power management among decentralized wind turbines and controlled charging of capacitor bank.The frequency stability is ensured by a joint coordinated utilization of capacitor bank and distributed wind power turbines dispatching through a new DSTATCOM six-pulse controller scheme.In both strategies,power grid is contributed as a backup source with less priority.These new joint strategies for voltage and frequency stabilities will enhance the stable active power delivery to end users.A system test case is developed to verify the proposed joint strategies.The test results of the proposed new schemes are proved to be effective in terms of stability improvement of voltage,frequency and active power generation.展开更多
Objective:To compare the proximate composition,mineral contents,antimicrobial,phytochemical and Fourier transforms infrared(FTIR)spectroscopy analysis of bark,stem and seed of Hippophae rhamnoides.Methods:Proximate co...Objective:To compare the proximate composition,mineral contents,antimicrobial,phytochemical and Fourier transforms infrared(FTIR)spectroscopy analysis of bark,stem and seed of Hippophae rhamnoides.Methods:Proximate composition was determined according to the described methods.Mineral analysis was carried out by atomic absorption spectroscopy and flame photometer.Antimicrobial activities were evaluated according to the agar well diffusion method.Phytochemical qualitative analysis was carried out according to the described methods and functional groups were determined by FTIR Prestige-21 Shimadzu Japan.Results:The proximate analysis showed high content of protein and fiber in stem and bark.High content of Na(900 mg/L)and K(670 mg/L)was found in bark powder,while in seed,high contents of Ca(800 mg/L),Mg(725 mg/L),Fe(250 mg/L)Zn(90 mg/L)and Mn(65 mg/L)were found compared to stem and bark.Phenols,flavonoids and tannins showed high contents in stem and bark of all extracts.The bark aqueous extract showed high zone of inhibition against Staphylococcus aureus(21 mm)and Escherichia coli(20 mm),while methanol extract of stem showed high zone of inhibition(14 mm and 13 mm)against Enterococcus faecalis and Escherichia coli respectively.The aqueous extract of bark documented high zone of inhibition against Aspergillus niger(21 mm)and Aspergillus parasiticus(20 mm).FTIR spectra revealed the presence of OH,C-O and C=O functional groups.Conclusions:The study concludes that bark,stem and seed extracts will be useful guideline for the new syntheses of feed,food supplements and herb drugs with various combination,which can be used for the treatment of many diseases at global level especially in tropical regions as well as the male nutrition problems in these areas.展开更多
基金The work was financially supported by the National Key Research and Development Program of China,China(2022YFD2100100),National Natural Science Foundation of China,China(3227277632001748)+4 种基金Natural Science Foundation of Ningbo,China(202003N4311)Zhejiang Public Welfare Technology Application Research Project,China(LGN21C200018)Key Research and Development Program of Zhejiang Province(2022C02033,2021C02014)China and 72nd Postdoctoral Foundation(2022M713423)Young Elite Scientists Sponsorship Program by CAST(2022QNRC001).
文摘Protein has been used as the carrier for protecting and targeting polyphenols and increasing their shelf-life.Interactions of a protein molecule with polyphenols are important,which change functions and physiochemical properties of the complex and provide protection to polyphenols.Interactions between proteins and polyphenols are largely non-covalent.Factors that affect such interactions include pH,temperature,and the structure of both proteins and polyphenols.Moreover,excellent stability of polyphenols can be achieved by using nanoencapsulation techniques such as emulsion,nanohydrogel,and nanocomplex formation.The use of protein combined with other compounds such as lipids and carbohydrates was found to be the most suitable carrier for polyphenols encapsulation.This review aims to describe the interaction between proteins and polyphenols,focusing on applying nanoencapsulation for increasing stability and targeted delivery of phenolic compounds.
文摘Numerical simulation of diode-pumped Q-switched Nd:YAG laser leading to the generation of eye-safe signal in singly resonant Intracavity Optical Parametric Oscillator (IOPO) is presented. Starting from rate equations, the time dependent laser equations have been solved numerically, whereas the space-dependent OPO equations analytically. Our results show that 1.4 J diode laser (810 nm) pulse with 200 msec width, delivers 30 mJ Nd:YAG laser (1064 nm) pulse with 5 n-second width. This Nd:YAG laser further generates 9 mJ eye safe signal (1570 nm) pulse with 2.5 n-second width.
文摘Dynamic instability of decentralized wind energy farms is a major issue to deliver continuous green energy to electricity consumers.This instability is caused by variations of voltage and frequency parameters due to intermittencies in wind power.Previously,droop control and inverter-based schemes have been proposed to regulate the voltage by balancing reactive power,while inertial control,digital mapping tech-nique of proportional-integral-differential(PID)controller and efficiency control strategy have been developed to regulate the frequency.In this paper,voltage stability is improved by a new joint strategy of distribution static compensator(DSTATCOM)six-pulse controller based reactive power management among decentralized wind turbines and controlled charging of capacitor bank.The frequency stability is ensured by a joint coordinated utilization of capacitor bank and distributed wind power turbines dispatching through a new DSTATCOM six-pulse controller scheme.In both strategies,power grid is contributed as a backup source with less priority.These new joint strategies for voltage and frequency stabilities will enhance the stable active power delivery to end users.A system test case is developed to verify the proposed joint strategies.The test results of the proposed new schemes are proved to be effective in terms of stability improvement of voltage,frequency and active power generation.
基金Supported by Center of Biotechnology and Microbiology,University of Peshawar,KPK-Pakistan
文摘Objective:To compare the proximate composition,mineral contents,antimicrobial,phytochemical and Fourier transforms infrared(FTIR)spectroscopy analysis of bark,stem and seed of Hippophae rhamnoides.Methods:Proximate composition was determined according to the described methods.Mineral analysis was carried out by atomic absorption spectroscopy and flame photometer.Antimicrobial activities were evaluated according to the agar well diffusion method.Phytochemical qualitative analysis was carried out according to the described methods and functional groups were determined by FTIR Prestige-21 Shimadzu Japan.Results:The proximate analysis showed high content of protein and fiber in stem and bark.High content of Na(900 mg/L)and K(670 mg/L)was found in bark powder,while in seed,high contents of Ca(800 mg/L),Mg(725 mg/L),Fe(250 mg/L)Zn(90 mg/L)and Mn(65 mg/L)were found compared to stem and bark.Phenols,flavonoids and tannins showed high contents in stem and bark of all extracts.The bark aqueous extract showed high zone of inhibition against Staphylococcus aureus(21 mm)and Escherichia coli(20 mm),while methanol extract of stem showed high zone of inhibition(14 mm and 13 mm)against Enterococcus faecalis and Escherichia coli respectively.The aqueous extract of bark documented high zone of inhibition against Aspergillus niger(21 mm)and Aspergillus parasiticus(20 mm).FTIR spectra revealed the presence of OH,C-O and C=O functional groups.Conclusions:The study concludes that bark,stem and seed extracts will be useful guideline for the new syntheses of feed,food supplements and herb drugs with various combination,which can be used for the treatment of many diseases at global level especially in tropical regions as well as the male nutrition problems in these areas.
