In the context of banning gated communities, blocks returning to the human-oriented scale become the new normal, and pedestrian system design will be paid more attention in the urban planning field. Oct-Loft Creative ...In the context of banning gated communities, blocks returning to the human-oriented scale become the new normal, and pedestrian system design will be paid more attention in the urban planning field. Oct-Loft Creative Park is a template for open blocks in Shenzhen, with a convenient and humanized pedestrian system. This paper selects the creative park's pedestrian system as the research object, using the environment-behavior theory for analysis. Finally, optimization strategies of pedestrian system will be put forward.展开更多
Metal-organic framework materials have numerous significant merits for use as electrodes in sodium-ion batteries,such as multiple active sites and porous structures.However,the masked active sites and pores limit thei...Metal-organic framework materials have numerous significant merits for use as electrodes in sodium-ion batteries,such as multiple active sites and porous structures.However,the masked active sites and pores limit their performances.Herein,we rationally selected Ni-HHTP(HHTP=2,3,6,7,10,11-hexahydroxytriphenylene)with a stable structure,and adopted thermal treatment prior to its carbonization to open blocked pores and expose multiple active sites.As expected,after thermal treatment at a low temperature of 250℃,the obtained Ni-HHTP-250 sample still retained the intrinsic crystal skeleton and crystal type,and exposed more actives sites and pores than those of pristine Ni-HHTP.The obtained Ni-HHTP-250 as an electrode material for sodium-ion batteries exhibits a large reversible discharge capacity of 420 mA h g^(-1)at 0.1 A g^(-1)along with a fine rate capability of 200 mA h g^(-1)at 2.0 A g^(-1).Mechanism studies show that both the Ni ions and organic ligands in the Ni-HHTP-250 sample are active sites.The H_(2)O molecules and the-OH subgroups in the pores masking the active site can be removed after heat treatment.Hence,the excellent electrochemical performance is largely due to the open porous structure and exposed active sites,resulting in rapid Na+diffusion and relatively high electronic conductivity.This work offers an innovative idea for preparing high-performance electrodes of metal-ion batteries.展开更多
文摘In the context of banning gated communities, blocks returning to the human-oriented scale become the new normal, and pedestrian system design will be paid more attention in the urban planning field. Oct-Loft Creative Park is a template for open blocks in Shenzhen, with a convenient and humanized pedestrian system. This paper selects the creative park's pedestrian system as the research object, using the environment-behavior theory for analysis. Finally, optimization strategies of pedestrian system will be put forward.
基金supported by the National Natural Science Foundation of China(Grant No.51872075,51922008 and 52072114)the Henan Center for Outstanding Overseas Scientists(No.GZS_(2)022017)+1 种基金the 111 Project(Grant No.D17007),China Postdoctoral Science Foudation(Grant No.2022M721049)the Natural Science Foundation of Henan Province(Grant No.222300420206).
文摘Metal-organic framework materials have numerous significant merits for use as electrodes in sodium-ion batteries,such as multiple active sites and porous structures.However,the masked active sites and pores limit their performances.Herein,we rationally selected Ni-HHTP(HHTP=2,3,6,7,10,11-hexahydroxytriphenylene)with a stable structure,and adopted thermal treatment prior to its carbonization to open blocked pores and expose multiple active sites.As expected,after thermal treatment at a low temperature of 250℃,the obtained Ni-HHTP-250 sample still retained the intrinsic crystal skeleton and crystal type,and exposed more actives sites and pores than those of pristine Ni-HHTP.The obtained Ni-HHTP-250 as an electrode material for sodium-ion batteries exhibits a large reversible discharge capacity of 420 mA h g^(-1)at 0.1 A g^(-1)along with a fine rate capability of 200 mA h g^(-1)at 2.0 A g^(-1).Mechanism studies show that both the Ni ions and organic ligands in the Ni-HHTP-250 sample are active sites.The H_(2)O molecules and the-OH subgroups in the pores masking the active site can be removed after heat treatment.Hence,the excellent electrochemical performance is largely due to the open porous structure and exposed active sites,resulting in rapid Na+diffusion and relatively high electronic conductivity.This work offers an innovative idea for preparing high-performance electrodes of metal-ion batteries.
