BACKGROUND The Helicobacter pylori(H.pylori)eradication rate is decreasing in the general population of China.AIM To evaluate the H.pylori eradication status in real-world clinical practice and to explore factors rela...BACKGROUND The Helicobacter pylori(H.pylori)eradication rate is decreasing in the general population of China.AIM To evaluate the H.pylori eradication status in real-world clinical practice and to explore factors related to eradication failure.METHODS Patients with H.pylori infection who were treated with standard 14-d quadruple therapy and received a test of cure at a provincial medical institution between June 2018 and May 2019 were enrolled.Demographic and clinical data were recorded.Eradication rates were calculated and compared between regimens and subgroups.Multivariate analysis was performed to identify predictors of eradication failure.RESULTS Of 2610 patients enrolled,eradication was successful in 1999(76.6%)patients.Amoxicillin-containing quadruple regimens showed a higher eradication rate than other quadruple therapy regimens(83.0%vs 69.0%,P<0.001).The quadruple therapy containing amoxicillin plus clarithromycin achieved the highest eradication rate(83.5%).Primary therapy had a higher eradication rate than rescue therapy(78.3%vs 66.5%,P<0.001).In rescue therapy,the amoxicillinand furazolidone-containing regimens achieved the highest eradication rate(80.8%).Esomeprazole-containing regimens showed a higher eradication rate than those containing other proton pump inhibitors(81.8%vs 74.9%,P=0.001).Multivariate regression analysis found that older age,prior therapy,and use of omeprazole or pantoprazole were associated with an increased risk of eradication CONCLUSION The total eradication rate is 76.6%.Amoxicillin-containing regimens are superior to other regimens.Age,prior therapy,and use of omeprazole or pantoprazole are independent risk factors for eradication failure.展开更多
Peroxymonosulfate(PMS)activation in heterogeneous processes is a promising water treatment technology.Nevertheless,the high energy consumption and low efficiency during the reaction are ineluctable,due to electron cyc...Peroxymonosulfate(PMS)activation in heterogeneous processes is a promising water treatment technology.Nevertheless,the high energy consumption and low efficiency during the reaction are ineluctable,due to electron cycling rate limitation.Herein,a new strategy is proposed based on a quantum dots(QDs)/PMS system.Co-ZnS QDs are synthesized by a water phase coprecipitation method.The inequivalent lattice-doping of Co for Zn leads to the generation of surface sulfur vacancies(SVs),which modulates the surface of the catalyst to form an electronic nonequilibrium surface.Astonishingly,the plasticizer micropollutants can be completely degraded within only tens of seconds in the Co-Zn S QDs/PMS system due to this type of surface modulation.The interfacial reaction mechanism is revealed that pollutants tend to be adsorbed on the cobalt metal sites as the electron donors,where the internal electrons of pollutants are captured by the metal species and transferred to the surface SVs.Meanwhile,PMS adsorbed on the SVs is reduced to radicals by capturing electrons,achieving effective electron recovery.Dissolved oxygen(DO)molecules are also easily attracted to catalyst defects and are reduced to O_(2)^(·-),further promoting the degradation of pollutants.展开更多
The coupling region of a Hall thruster with a hollow cathode is the region between the cathode and the thruster plume.The characteristics of plasma in that region are complicated and strongly associated with the thrus...The coupling region of a Hall thruster with a hollow cathode is the region between the cathode and the thruster plume.The characteristics of plasma in that region are complicated and strongly associated with the thruster working conditions and the cathode position.In this paper,a laboratory 100 W class magnetically shielded Hall thruster was coupled with a hollow cathode.Optical imaging and electrostatic probe were employed to monitor and scan the plasma plume.Plume characteristics in the coupling region in non-self-sustained mode and self-sustained mode were compared.Evolution of the coupling plume with the cathode position was studied.Experiments show that,when turning the thruster into self-sustained mode or moving the cathode further away axially,the discharge current can be reduced by 6.4–10.6%restraining the electron current and improving ionization.In particular,when the cathode is moved further,the electron conduction near the channel walls is suppressed.The electron current is reduced by 27.4%and the ion beam current is increased by 7%.Overall,this work shows that the working mode of the thruster and the position of the cathode greatly affect the coupling plasma plume.Both play an important role in improving the utilizations of propellant and current.展开更多
The effect of tin on general and pitting corrosion behaviors of the austenitic stainless steel in sulfuric acid and sodium chloride solutions was investigated by potentiostatic critical pitting temperature, cyclic pot...The effect of tin on general and pitting corrosion behaviors of the austenitic stainless steel in sulfuric acid and sodium chloride solutions was investigated by potentiostatic critical pitting temperature, cyclic potentiodynamic polarization, electrochemical impedance spectroscopy, and scanning electron microscopy. The results showed that there is an optimal tin addition which is around (0.062-0.1) wt%, and the general corrosion resistance of B316LX with 0.08 wt% tin addition in boiling H2SO4 increased remarkably with a corrosion rate of an order of magnitude lower than that of 316L. Hydrolyzation of tin ions induces more metastable pit occurrence on the material surface. However, the pitting resistance of B316LX increases because tin oxides improve the density and uniformity of the passive film, and hydroxide and oxide of tin inhabit the process of pit growing. The effect of tin on pitting corrosion process is illustrated schematically.展开更多
Thermodynamic analysis of refractory siderite ore during carbothermic reduction was conducted. Micro- structure characteristics and phase transformation of siderite ore during sodium-carbonate-added catalyzing carboth...Thermodynamic analysis of refractory siderite ore during carbothermic reduction was conducted. Micro- structure characteristics and phase transformation of siderite ore during sodium-carbonate-added catalyzing carboth- ermic reduction were investigated. X-ray diffraction (XRD), scanning electron microscopy and energy-dispersive analysis of X rays were used to characterize the reduced samples. Results indicate that the solid reaction between FeO and SiO2 is inevitable during carbothermic reduction and the formation of fayalite is the main hindrance to the rapid reduction of siderite. The phase transformation of present siderite ore can be described as: siderite-magnetite-metallic iron, complying with the formation of abundant fayalite. Improving the reduction temperature (-1050 -C ) and duration is helpful for the formation and aggregation of metallic iron. The iron particle size in the reduced ore was below 20 l-m, and fayalite was abundant in the absence of sodium carbonate. With 5% Na2CO3 addition, the iron particle size in the reduced ore was generally above 50μm, and the diffraction intensity associated with metallic iron in the XRD pattern increased. The Na2O formed from the dissociation of Na2 CO3 can catalyze the carbothermie reduction of the siderite. This catalytic activity may be mainly caused by an increase in the reducing reaction activity of FeO.展开更多
Objective:To observe the clinical results and therapeutic characteristics of Tongluo Shenggu Decoction in the treatment of ARCOⅡnon-traumatic femoral head necrosis.Methods:120 patients with ARCOⅡnon-traumatic femora...Objective:To observe the clinical results and therapeutic characteristics of Tongluo Shenggu Decoction in the treatment of ARCOⅡnon-traumatic femoral head necrosis.Methods:120 patients with ARCOⅡnon-traumatic femoral head necrosis from January 2016 to January 2017 were studied by prospective matched and controlled design.60 cases in the treatment group were treated with Tongluo Shenggu Formula.The control group(60 cases)received high energy extracorporeal shock wave therapy.The imaging stability rate,Harris score and SF-36 score were used as clinical efficacy indicators,followed up for 24 months,and the follow-up results were statistically analyzed.Results:Among the 120 patients,5 fell off and the rest were followed up.The imaging stability rate is heavy.The imaging stability rate of the patients in the treatment group is 78.95%,while that in the control group is 72.41%.The two groups have the same stability rate(P>0.05).In Harris score,the Harris score of the patients in the treatment group was 92.678.45 points,significantly higher than that of the control group(80.3924.65 points),the difference was statistically significant(p<0.05),and the pain degree,joint function and joint deformity score of the treatment group were better than those of the control group(p<0.05).In the SF-36 score,the scores of physiological function,physiological function,physical pain,overall health,social function and emotional function in the treatment group were significantly higher than those in the control group,the difference was statistically significant(p<0.05).the incidence of adverse events in the treatment period of the two groups was lower and the patients could relieve themselves in the later stage.Conclusion:Tongluo Shenggu prescription has definite curative effect in treating ARCOⅡnon-traumatic femoral head necrosis,especially in improving hip joint function,relieving hip joint pain and improving quality of life.To observe the clinical results and therapeutic characteristics of Tongluo Shenggu Decoction in the treatment of ARCOⅡnon-traumatic femoral head necrosis.Methods:120 patients with ARCOⅡnon-traumatic femoral head necrosis from January 2016 to January 2017 were studied by prospective matched and controlled design.60 cases in the treatment group were treated with Tongluo Shenggu Formula.The control group(60 cases)received high energy extracorporeal shock wave therapy.The imaging stability rate,Harris score and SF-36 score were used as clinical efficacy indicators,followed up for 24 months,and the follow-up results were statistically analyzed.Results:Among the 120 patients,5 fell off and the rest were followed up.The imaging stability rate is heavy.The imaging stability rate of the patients in the treatment group is 78.95%,while that in the control group is 72.41%.The two groups have the same stability rate(P>0.05).In Harris score,the Harris score of the patients in the treatment group was 92.678.45 points,significantly higher than that of the control group(80.3924.65 points),the difference was statistically significant(p<0.05),and the pain degree,joint function and joint deformity score of the treatment group were better than those of the control group(p<0.05).In the SF-36 score,the scores of physiological function,physiological function,physical pain,overall health,social function and emotional function in the treatment group were significantly higher than those in the control group,the difference was statistically significant(p<0.05).the incidence of adverse events in the treatment period of the two groups was lower and the patients could relieve themselves in the later stage.Conclusion:Tongluo Shenggu prescription has definite curative effect in treating ARCOⅡnon-traumatic femoral head necrosis,especially in improving hip joint function,relieving hip joint pain and improving quality of life.展开更多
The shop scheduling problem with limited buffers has broad applications in real-world production scenarios,so this research direction is of great practical significance.However,there is currently little research on th...The shop scheduling problem with limited buffers has broad applications in real-world production scenarios,so this research direction is of great practical significance.However,there is currently little research on the hybrid flow shop scheduling problem with limited buffers(LBHFSP).This paper deeply investigates the LBHFSP to optimize the goal of the total completion time.To better solve the LBHFSP,a multi-level subpopulation-based particle swarm optimization algorithm(MLPSO)is proposed,which is founded on the attributes of the LBHFSP and the shortcomings of the basic PSO(particle swarm optimization)algorithm.In MLPSO,firstly,considering the impact of the limited buffers on the process of subsequent operations,a specific circular decoding strategy is developed to accommodate the characteristics of limited buffers.Secondly,an initialization strategy based on blocking time is designed to enhance the quality and diversity of the initial population.Afterward,a multi-level subpopulation collaborative search is developed to prevent being trapped in a local optimum and improve the global exploration capability.Additionally,a local search strategy based on the first blocked job is designed to enhance the MLPSO algorithm’s exploitation capability.Lastly,numerous experiments are carried out to test the performance of the proposed MLPSO by comparing it with classical intelligent optimization and popular algorithms in recent years.The results confirm that the proposed MLPSO has an outstanding performance when compared to other algorithms when solving LBHFSP.展开更多
Nanoparticles-incorporated hydrogel microneedles(NPs-HMN)have attracted significant attention due to their exceptional biomedical applications.The arrayed needle tips of NPsHMN effectively penetrate the skin or tissue...Nanoparticles-incorporated hydrogel microneedles(NPs-HMN)have attracted significant attention due to their exceptional biomedical applications.The arrayed needle tips of NPsHMN effectively penetrate the skin or tissue,enabling minimally invasive and painless delivery of therapeutic molecules into the tissue microenvironment.This approach has shown significant improvements in bioavailability and patient compliance.Moreover,the functionalized hydrogel materials of NPs-HMN exhibit a three-dimensional network structure resembling the extracellular matrix,along with controllable drug release,exceptional swelling ability,hydrophilicity,and biocompatibility.These characteristics broaden the potential applications of HMN in therapeutic and biosensing contexts.In addition,the incorporation of nanoparticles(NPs)has been shown to improve the solubility of hydrophobic drugs,enhance mechanical properties,enable intelligent drug release,and facilitate precise targeting of HMN.The versatility and diversity of treatment options afforded by NPs-HMN contribute to significant advancements in animal models and clinical settings,as well as offer valuable insights for biomaterial development.This review provides a comprehensive examination of the fabrication strategies of NPs-HMN and their recent advancements in biomedical applications.We also analyze the mechanisms,advantages,challenges,and future prospects of this system in enhancing drug delivery efficiency to provide theoretical references for further breakthroughs in novel delivery platforms.展开更多
In recent years,ionic modulation,particularly hydrogen intercalation,has gained attention as a powerful method for tuning the properties of materials.Although the SrFeO_(x)system is similar to SrCoO_(x),which can be p...In recent years,ionic modulation,particularly hydrogen intercalation,has gained attention as a powerful method for tuning the properties of materials.Although the SrFeO_(x)system is similar to SrCoO_(x),which can be protonated to the HSrCoO_(2.5)phase,it remains a challenge for the hydrogenation of SrFeO_(2.5).In this study,starting from the perovskite SrFeO_(3−δ),we achieved hydrogen intercalation and obtained stable hydrogenated brownmillerite-phase HSrFeO_(2.5)via Pt-catalyzed H-spillover at room temperature.The results indicate that the hydrogenation process is accompanied by the simultaneous oxygen ionic release,that is,perovskite SrFeO_(3−δ)is the prerequisite for the hydrogen-induced phase transition.Subsequently,upon hydrogenation,the entire phase transition cycle among the perovskite SrFeO_(3−δ),brownmillerite SrFeO_(2.5),and the hydrogenated HSrFeO_(2.5)phase,is completed.Furthermore,SrFeO_(3−δ)exhibits a remarkable 9.4%lattice expansion,and its electronic state undergoes a multi-step evolution,transforming from a pristine helical antiferromagnetic insulator to a bad metal,eventually returning to an antiferromagnetic insulator.Based on the obtained results,we fabricated microscale patterns with varied surface morphologies and electrical conductivities that can be used in fabricating electronic devices.This study presents a novel approach for modulating the properties of correlated and functional materials.展开更多
基金Supported by the National Natural Science Foundation of China,No.81600447。
文摘BACKGROUND The Helicobacter pylori(H.pylori)eradication rate is decreasing in the general population of China.AIM To evaluate the H.pylori eradication status in real-world clinical practice and to explore factors related to eradication failure.METHODS Patients with H.pylori infection who were treated with standard 14-d quadruple therapy and received a test of cure at a provincial medical institution between June 2018 and May 2019 were enrolled.Demographic and clinical data were recorded.Eradication rates were calculated and compared between regimens and subgroups.Multivariate analysis was performed to identify predictors of eradication failure.RESULTS Of 2610 patients enrolled,eradication was successful in 1999(76.6%)patients.Amoxicillin-containing quadruple regimens showed a higher eradication rate than other quadruple therapy regimens(83.0%vs 69.0%,P<0.001).The quadruple therapy containing amoxicillin plus clarithromycin achieved the highest eradication rate(83.5%).Primary therapy had a higher eradication rate than rescue therapy(78.3%vs 66.5%,P<0.001).In rescue therapy,the amoxicillinand furazolidone-containing regimens achieved the highest eradication rate(80.8%).Esomeprazole-containing regimens showed a higher eradication rate than those containing other proton pump inhibitors(81.8%vs 74.9%,P=0.001).Multivariate regression analysis found that older age,prior therapy,and use of omeprazole or pantoprazole were associated with an increased risk of eradication CONCLUSION The total eradication rate is 76.6%.Amoxicillin-containing regimens are superior to other regimens.Age,prior therapy,and use of omeprazole or pantoprazole are independent risk factors for eradication failure.
基金financially supported by the National Natural Science Foundation of China(Nos.52070046,52122009,51808140and 51838005)the Introduced of Innovative R&D Team Project under the“Pearl River Talent Recruitment Program”of Guangdong Province(No.2019ZT08L387)+1 种基金the Guangdong Province Universities and Colleges Pearl River Scholar Funded Scheme(Young Scholar)the support from the BL14W1beamline of Shanghai Synchrotron Radiation Facility(SSRF,China)。
文摘Peroxymonosulfate(PMS)activation in heterogeneous processes is a promising water treatment technology.Nevertheless,the high energy consumption and low efficiency during the reaction are ineluctable,due to electron cycling rate limitation.Herein,a new strategy is proposed based on a quantum dots(QDs)/PMS system.Co-ZnS QDs are synthesized by a water phase coprecipitation method.The inequivalent lattice-doping of Co for Zn leads to the generation of surface sulfur vacancies(SVs),which modulates the surface of the catalyst to form an electronic nonequilibrium surface.Astonishingly,the plasticizer micropollutants can be completely degraded within only tens of seconds in the Co-Zn S QDs/PMS system due to this type of surface modulation.The interfacial reaction mechanism is revealed that pollutants tend to be adsorbed on the cobalt metal sites as the electron donors,where the internal electrons of pollutants are captured by the metal species and transferred to the surface SVs.Meanwhile,PMS adsorbed on the SVs is reduced to radicals by capturing electrons,achieving effective electron recovery.Dissolved oxygen(DO)molecules are also easily attracted to catalyst defects and are reduced to O_(2)^(·-),further promoting the degradation of pollutants.
基金supported by the National Natural Science Foundation of China(No.11872093)。
文摘The coupling region of a Hall thruster with a hollow cathode is the region between the cathode and the thruster plume.The characteristics of plasma in that region are complicated and strongly associated with the thruster working conditions and the cathode position.In this paper,a laboratory 100 W class magnetically shielded Hall thruster was coupled with a hollow cathode.Optical imaging and electrostatic probe were employed to monitor and scan the plasma plume.Plume characteristics in the coupling region in non-self-sustained mode and self-sustained mode were compared.Evolution of the coupling plume with the cathode position was studied.Experiments show that,when turning the thruster into self-sustained mode or moving the cathode further away axially,the discharge current can be reduced by 6.4–10.6%restraining the electron current and improving ionization.In particular,when the cathode is moved further,the electron conduction near the channel walls is suppressed.The electron current is reduced by 27.4%and the ion beam current is increased by 7%.Overall,this work shows that the working mode of the thruster and the position of the cathode greatly affect the coupling plasma plume.Both play an important role in improving the utilizations of propellant and current.
基金the China Postdoctoral Science Foundation (2013M541463)the National Natural Science Foundation of China (No. 51,131,008)+1 种基金the National Key Technology R&D Program (No. 2012BAE04B00)the Doctoral Fund of Ministry of Education of China (No. 20120071110013)
文摘The effect of tin on general and pitting corrosion behaviors of the austenitic stainless steel in sulfuric acid and sodium chloride solutions was investigated by potentiostatic critical pitting temperature, cyclic potentiodynamic polarization, electrochemical impedance spectroscopy, and scanning electron microscopy. The results showed that there is an optimal tin addition which is around (0.062-0.1) wt%, and the general corrosion resistance of B316LX with 0.08 wt% tin addition in boiling H2SO4 increased remarkably with a corrosion rate of an order of magnitude lower than that of 316L. Hydrolyzation of tin ions induces more metastable pit occurrence on the material surface. However, the pitting resistance of B316LX increases because tin oxides improve the density and uniformity of the passive film, and hydroxide and oxide of tin inhabit the process of pit growing. The effect of tin on pitting corrosion process is illustrated schematically.
基金Sponsored by National Science Foundation for Young Scientists of China(51404118)Yunnan Province Science Youth Experts Fund of China(2012FD012)Yunnan Province Department of Education Fund of China(2012Y530)
文摘Thermodynamic analysis of refractory siderite ore during carbothermic reduction was conducted. Micro- structure characteristics and phase transformation of siderite ore during sodium-carbonate-added catalyzing carboth- ermic reduction were investigated. X-ray diffraction (XRD), scanning electron microscopy and energy-dispersive analysis of X rays were used to characterize the reduced samples. Results indicate that the solid reaction between FeO and SiO2 is inevitable during carbothermic reduction and the formation of fayalite is the main hindrance to the rapid reduction of siderite. The phase transformation of present siderite ore can be described as: siderite-magnetite-metallic iron, complying with the formation of abundant fayalite. Improving the reduction temperature (-1050 -C ) and duration is helpful for the formation and aggregation of metallic iron. The iron particle size in the reduced ore was below 20 l-m, and fayalite was abundant in the absence of sodium carbonate. With 5% Na2CO3 addition, the iron particle size in the reduced ore was generally above 50μm, and the diffraction intensity associated with metallic iron in the XRD pattern increased. The Na2O formed from the dissociation of Na2 CO3 can catalyze the carbothermie reduction of the siderite. This catalytic activity may be mainly caused by an increase in the reducing reaction activity of FeO.
基金Science foundation for postdoctoral researches in China(2017 M613179)Studio construction project of Traumatology and orthopedics of traditional Chinese medicine Guo family genre([2018]40)
文摘Objective:To observe the clinical results and therapeutic characteristics of Tongluo Shenggu Decoction in the treatment of ARCOⅡnon-traumatic femoral head necrosis.Methods:120 patients with ARCOⅡnon-traumatic femoral head necrosis from January 2016 to January 2017 were studied by prospective matched and controlled design.60 cases in the treatment group were treated with Tongluo Shenggu Formula.The control group(60 cases)received high energy extracorporeal shock wave therapy.The imaging stability rate,Harris score and SF-36 score were used as clinical efficacy indicators,followed up for 24 months,and the follow-up results were statistically analyzed.Results:Among the 120 patients,5 fell off and the rest were followed up.The imaging stability rate is heavy.The imaging stability rate of the patients in the treatment group is 78.95%,while that in the control group is 72.41%.The two groups have the same stability rate(P>0.05).In Harris score,the Harris score of the patients in the treatment group was 92.678.45 points,significantly higher than that of the control group(80.3924.65 points),the difference was statistically significant(p<0.05),and the pain degree,joint function and joint deformity score of the treatment group were better than those of the control group(p<0.05).In the SF-36 score,the scores of physiological function,physiological function,physical pain,overall health,social function and emotional function in the treatment group were significantly higher than those in the control group,the difference was statistically significant(p<0.05).the incidence of adverse events in the treatment period of the two groups was lower and the patients could relieve themselves in the later stage.Conclusion:Tongluo Shenggu prescription has definite curative effect in treating ARCOⅡnon-traumatic femoral head necrosis,especially in improving hip joint function,relieving hip joint pain and improving quality of life.To observe the clinical results and therapeutic characteristics of Tongluo Shenggu Decoction in the treatment of ARCOⅡnon-traumatic femoral head necrosis.Methods:120 patients with ARCOⅡnon-traumatic femoral head necrosis from January 2016 to January 2017 were studied by prospective matched and controlled design.60 cases in the treatment group were treated with Tongluo Shenggu Formula.The control group(60 cases)received high energy extracorporeal shock wave therapy.The imaging stability rate,Harris score and SF-36 score were used as clinical efficacy indicators,followed up for 24 months,and the follow-up results were statistically analyzed.Results:Among the 120 patients,5 fell off and the rest were followed up.The imaging stability rate is heavy.The imaging stability rate of the patients in the treatment group is 78.95%,while that in the control group is 72.41%.The two groups have the same stability rate(P>0.05).In Harris score,the Harris score of the patients in the treatment group was 92.678.45 points,significantly higher than that of the control group(80.3924.65 points),the difference was statistically significant(p<0.05),and the pain degree,joint function and joint deformity score of the treatment group were better than those of the control group(p<0.05).In the SF-36 score,the scores of physiological function,physiological function,physical pain,overall health,social function and emotional function in the treatment group were significantly higher than those in the control group,the difference was statistically significant(p<0.05).the incidence of adverse events in the treatment period of the two groups was lower and the patients could relieve themselves in the later stage.Conclusion:Tongluo Shenggu prescription has definite curative effect in treating ARCOⅡnon-traumatic femoral head necrosis,especially in improving hip joint function,relieving hip joint pain and improving quality of life.
基金supported in part by the National Natural Science Foundation of China under Grant No.52175490.
文摘The shop scheduling problem with limited buffers has broad applications in real-world production scenarios,so this research direction is of great practical significance.However,there is currently little research on the hybrid flow shop scheduling problem with limited buffers(LBHFSP).This paper deeply investigates the LBHFSP to optimize the goal of the total completion time.To better solve the LBHFSP,a multi-level subpopulation-based particle swarm optimization algorithm(MLPSO)is proposed,which is founded on the attributes of the LBHFSP and the shortcomings of the basic PSO(particle swarm optimization)algorithm.In MLPSO,firstly,considering the impact of the limited buffers on the process of subsequent operations,a specific circular decoding strategy is developed to accommodate the characteristics of limited buffers.Secondly,an initialization strategy based on blocking time is designed to enhance the quality and diversity of the initial population.Afterward,a multi-level subpopulation collaborative search is developed to prevent being trapped in a local optimum and improve the global exploration capability.Additionally,a local search strategy based on the first blocked job is designed to enhance the MLPSO algorithm’s exploitation capability.Lastly,numerous experiments are carried out to test the performance of the proposed MLPSO by comparing it with classical intelligent optimization and popular algorithms in recent years.The results confirm that the proposed MLPSO has an outstanding performance when compared to other algorithms when solving LBHFSP.
基金supported by China Postdoctoral Science Foundation(2023M740789)Guangdong Basic and Applied Basic Research Foundation(2023A1515110441,2024A1515011248,2024A1515030104)+1 种基金Guangzhou S&T Programme Foundation(202206010051,202205110009)Young Talent Support Project of Guangzhou Association for S&T(QT20220101041).
文摘Nanoparticles-incorporated hydrogel microneedles(NPs-HMN)have attracted significant attention due to their exceptional biomedical applications.The arrayed needle tips of NPsHMN effectively penetrate the skin or tissue,enabling minimally invasive and painless delivery of therapeutic molecules into the tissue microenvironment.This approach has shown significant improvements in bioavailability and patient compliance.Moreover,the functionalized hydrogel materials of NPs-HMN exhibit a three-dimensional network structure resembling the extracellular matrix,along with controllable drug release,exceptional swelling ability,hydrophilicity,and biocompatibility.These characteristics broaden the potential applications of HMN in therapeutic and biosensing contexts.In addition,the incorporation of nanoparticles(NPs)has been shown to improve the solubility of hydrophobic drugs,enhance mechanical properties,enable intelligent drug release,and facilitate precise targeting of HMN.The versatility and diversity of treatment options afforded by NPs-HMN contribute to significant advancements in animal models and clinical settings,as well as offer valuable insights for biomaterial development.This review provides a comprehensive examination of the fabrication strategies of NPs-HMN and their recent advancements in biomedical applications.We also analyze the mechanisms,advantages,challenges,and future prospects of this system in enhancing drug delivery efficiency to provide theoretical references for further breakthroughs in novel delivery platforms.
基金supported by the National Key R&D Program of China(Grant Nos.2022YFA1403000 and 2024YFA1408302)the CAS Project for Young Scientists in Basic Research(Grant No.YSBR-047)the Strategic Priority Research Program of the Chinese Academy of Sciences of China(Grant No.XDB33000000)。
文摘In recent years,ionic modulation,particularly hydrogen intercalation,has gained attention as a powerful method for tuning the properties of materials.Although the SrFeO_(x)system is similar to SrCoO_(x),which can be protonated to the HSrCoO_(2.5)phase,it remains a challenge for the hydrogenation of SrFeO_(2.5).In this study,starting from the perovskite SrFeO_(3−δ),we achieved hydrogen intercalation and obtained stable hydrogenated brownmillerite-phase HSrFeO_(2.5)via Pt-catalyzed H-spillover at room temperature.The results indicate that the hydrogenation process is accompanied by the simultaneous oxygen ionic release,that is,perovskite SrFeO_(3−δ)is the prerequisite for the hydrogen-induced phase transition.Subsequently,upon hydrogenation,the entire phase transition cycle among the perovskite SrFeO_(3−δ),brownmillerite SrFeO_(2.5),and the hydrogenated HSrFeO_(2.5)phase,is completed.Furthermore,SrFeO_(3−δ)exhibits a remarkable 9.4%lattice expansion,and its electronic state undergoes a multi-step evolution,transforming from a pristine helical antiferromagnetic insulator to a bad metal,eventually returning to an antiferromagnetic insulator.Based on the obtained results,we fabricated microscale patterns with varied surface morphologies and electrical conductivities that can be used in fabricating electronic devices.This study presents a novel approach for modulating the properties of correlated and functional materials.
