Heat dissipation involved safety issues are crucial for industrial applications of the high-energy density battery and fast charging technology.While traditional air or liquid cooling methods suffering from space limi...Heat dissipation involved safety issues are crucial for industrial applications of the high-energy density battery and fast charging technology.While traditional air or liquid cooling methods suffering from space limitation and possible leakage of electricity during charge process,emerging phase change materials as solid cooling media are of growing interest.Among them,paraffin wax(PW)with large latent heat capacity and low cost is desirable for heat dissipation and thermal management which mainly hindered by their relatively low thermal conductivity and susceptibility to leakage.Here,highly ordered and interconnected hexagonal boron nitride(h-BN)networks were established via ice template method and introduced into PW to enhance the thermal conductivity.The composite with 20 wt%loading amount of h-BN can guarantee a highly ordered network and exhibited high thermal conductivity(1.86 W m^(-1) K^(-1))which was 4 times larger compared with that of random dispersed h-BN involved PW and nearly 8 times larger compared with that of bare PW.The optimal thermal conductive composites demonstrated ultrafast heat dissipation as well as leakage resistance for lithium-ion batteries(LIBs),heat generated by LIBs can be effectively transferred under the working state and the surface temperature kept 6.9℃ lower at most under 2–5℃ continuous charge-discharge process compared with that of bare one which illustrated great potential for industrial thermal management.展开更多
Parkinson’s Disease(PD),second only to Alzheimer’s disease,is a neurodegenerative disease,most commonly occurring in people over the age of 65 years and is mostly caused by loss of dopamine neurons[1].Clinically,mot...Parkinson’s Disease(PD),second only to Alzheimer’s disease,is a neurodegenerative disease,most commonly occurring in people over the age of 65 years and is mostly caused by loss of dopamine neurons[1].Clinically,motor symptoms such as resting tremor,motor retardation,muscular rigidity,and disturbance of postural balance are the main symptoms,followed by non-motor symptoms such as cognitive impairment,autonomic nervous system dysfunction,depression,and sleep disorder[2].In 2016,>6.1 million people were affected with PD globally,2.4 times the number in 1990.The large number of affected people,coupled with the high mortality and disability rates,has placed a great burden on society[3].Traditional treatment methods mainly include drugs and surgery and are supplemented by physical therapy.展开更多
基金supported by the National Key R&D Program of China(2018YFA0209600)the National Natural Science Foundation of China(22022813,21878268)the Leading Innovative and Enterpreneur Team Introduction Program of Zhejiang(2019R01006)。
文摘Heat dissipation involved safety issues are crucial for industrial applications of the high-energy density battery and fast charging technology.While traditional air or liquid cooling methods suffering from space limitation and possible leakage of electricity during charge process,emerging phase change materials as solid cooling media are of growing interest.Among them,paraffin wax(PW)with large latent heat capacity and low cost is desirable for heat dissipation and thermal management which mainly hindered by their relatively low thermal conductivity and susceptibility to leakage.Here,highly ordered and interconnected hexagonal boron nitride(h-BN)networks were established via ice template method and introduced into PW to enhance the thermal conductivity.The composite with 20 wt%loading amount of h-BN can guarantee a highly ordered network and exhibited high thermal conductivity(1.86 W m^(-1) K^(-1))which was 4 times larger compared with that of random dispersed h-BN involved PW and nearly 8 times larger compared with that of bare PW.The optimal thermal conductive composites demonstrated ultrafast heat dissipation as well as leakage resistance for lithium-ion batteries(LIBs),heat generated by LIBs can be effectively transferred under the working state and the surface temperature kept 6.9℃ lower at most under 2–5℃ continuous charge-discharge process compared with that of bare one which illustrated great potential for industrial thermal management.
基金National Key R&D Program of China(2017YFA0105000)the National Natural Science Foundation of China(U1904207,81530037,91849115,and 82001973)+1 种基金the Provincial and Ministry of Health Construction Committee of Henan Province(SBGJ2020003017)the Excellent Youth Foundation of Henan Health Commission.
文摘Parkinson’s Disease(PD),second only to Alzheimer’s disease,is a neurodegenerative disease,most commonly occurring in people over the age of 65 years and is mostly caused by loss of dopamine neurons[1].Clinically,motor symptoms such as resting tremor,motor retardation,muscular rigidity,and disturbance of postural balance are the main symptoms,followed by non-motor symptoms such as cognitive impairment,autonomic nervous system dysfunction,depression,and sleep disorder[2].In 2016,>6.1 million people were affected with PD globally,2.4 times the number in 1990.The large number of affected people,coupled with the high mortality and disability rates,has placed a great burden on society[3].Traditional treatment methods mainly include drugs and surgery and are supplemented by physical therapy.
