With the continuous upgrading of traditional manufacturing industries and the rapid rise of emerging technology fields,the performance requirements for the permanent magnet synchronous motors(PMSMs)have become higher ...With the continuous upgrading of traditional manufacturing industries and the rapid rise of emerging technology fields,the performance requirements for the permanent magnet synchronous motors(PMSMs)have become higher and higher.The importance of fast and accurate electromagnetic thermal coupling analysis of such motors becomes more and more prominent.In view of this,the surfacemounted PMSM(SPMSM)equipped with unequally thick magnetic poles is taken as the main object and its electromagnetic thermal coupling analytical model(ETc AM)is investigated.First,the electromagnetic analytical model(EAM)is studied based on the modified subdomain method.It realizes the fast calculation of key electromagnetic characteristics.Subsequently,the 3D thermal analytical model(TAM)is developed by combining the EAM,the lumped parameter thermal network method(LPTNM),and the partial differential equation of heat flux.It realizes the fast calculation of key thermal characteristics in 3D space.Further,the information transfer channel between EAM and TAM is built with reference to the intrinsic connection between electromagnetic field and temperature field.Thereby,the novel ETcAM is proposed to realize the fast and accurate prediction of electromagnetic and temperature fields.Besides,ETcAM has a lot to commend it.One is that it well accounts for the complex structure,saturation,and heat exchange behavior.Second,it saves a lot of computer resources.It offers boundless possibilities for initial design,scheme evaluation,and optimization of motors.Finally,the validity,accuracy,and practicality of this study are verified by simulation and experiment.展开更多
DNA probes display advantages including flexible design,wide range of targets and high selectivity,but free DNA probes are confined to in vitro detection due to their poor cell penetration and low nuclease resistance....DNA probes display advantages including flexible design,wide range of targets and high selectivity,but free DNA probes are confined to in vitro detection due to their poor cell penetration and low nuclease resistance.Nanomaterials-loaded DNA probes can effectively solve above limitations and promote them in vivo applications.Gold nanoparticles-based probes have been intensely investigated in the past,and AuNP@DNA nanoflare as one of the most powerful tools for biomedical study has been developed.So far,towards Au NP@DNA nanoflare,significant advances in preparation(e.g.,salt-aging,low pH-assisted and freezing-directed linking)and application(e.g.,sensing and therapeutic nanoflares)have been achieved since first report.In addition,scientific challenges involved in AuNP@DNA nanoflares have been concerned and some endeavor has been made recently.Here,a historical review is provided for AuNP@DNA nanoflares:methodology in preparation and applications in bioanalysis and biomedicine are delineated,challenges and outlook are also discussed,which are expected to improve the further development of this fertile research area.展开更多
基金supported by the Project of National Natural Science Foundation of China under Grant 52077122。
文摘With the continuous upgrading of traditional manufacturing industries and the rapid rise of emerging technology fields,the performance requirements for the permanent magnet synchronous motors(PMSMs)have become higher and higher.The importance of fast and accurate electromagnetic thermal coupling analysis of such motors becomes more and more prominent.In view of this,the surfacemounted PMSM(SPMSM)equipped with unequally thick magnetic poles is taken as the main object and its electromagnetic thermal coupling analytical model(ETc AM)is investigated.First,the electromagnetic analytical model(EAM)is studied based on the modified subdomain method.It realizes the fast calculation of key electromagnetic characteristics.Subsequently,the 3D thermal analytical model(TAM)is developed by combining the EAM,the lumped parameter thermal network method(LPTNM),and the partial differential equation of heat flux.It realizes the fast calculation of key thermal characteristics in 3D space.Further,the information transfer channel between EAM and TAM is built with reference to the intrinsic connection between electromagnetic field and temperature field.Thereby,the novel ETcAM is proposed to realize the fast and accurate prediction of electromagnetic and temperature fields.Besides,ETcAM has a lot to commend it.One is that it well accounts for the complex structure,saturation,and heat exchange behavior.Second,it saves a lot of computer resources.It offers boundless possibilities for initial design,scheme evaluation,and optimization of motors.Finally,the validity,accuracy,and practicality of this study are verified by simulation and experiment.
基金supported in part by the financial support through the National Natural Science Foundation of China(Nos.22074008,22222402,22207098)Natural Science Foundation of Hunan Province(No.2024J13001)+1 种基金the Aid Program for Science and Technology Innovative Research Team in Higher Educational Institutions of Huan Province(No.2023ct01)The Special Fund for Zaozhuang Talent Agglomeration Project。
文摘DNA probes display advantages including flexible design,wide range of targets and high selectivity,but free DNA probes are confined to in vitro detection due to their poor cell penetration and low nuclease resistance.Nanomaterials-loaded DNA probes can effectively solve above limitations and promote them in vivo applications.Gold nanoparticles-based probes have been intensely investigated in the past,and AuNP@DNA nanoflare as one of the most powerful tools for biomedical study has been developed.So far,towards Au NP@DNA nanoflare,significant advances in preparation(e.g.,salt-aging,low pH-assisted and freezing-directed linking)and application(e.g.,sensing and therapeutic nanoflares)have been achieved since first report.In addition,scientific challenges involved in AuNP@DNA nanoflares have been concerned and some endeavor has been made recently.Here,a historical review is provided for AuNP@DNA nanoflares:methodology in preparation and applications in bioanalysis and biomedicine are delineated,challenges and outlook are also discussed,which are expected to improve the further development of this fertile research area.
