摘要
Microporous membrane was newly derived from P(VDF-HFP)/acetone/water system by dry-casting in the air.The structure of microporous P(VDF-HFP) membrane was observed through SEM.It was found that the pores were distributed uniformly in the whole membrane,some pearls were attached onto the skeleton and the diameter of the pores was in the order of a few microns.The porosity of the membrane was measured up to 72% by weighting the membrane’s mass before and after absorption of n -butanol.The crystallization behavior of the copolymer was studied with DSC before and after the formation of microporous membrane.In order to understand the morphology of the membrane,the process of the formation of micropores was discussed based on both the kinetic and thermodynamic points in the paper.The porous P(VDF-HFP) electrolyte was prepared by impregnating the membrane with PC/EC liquid electrolyte.The resistance of the solid porous electrolyte was measured by the ZL5 intelligent LCR meter,and the conductivity was evaluated from equation, σ=L/(RS). At ambient temperature the conducting can reach 10 -3S/cm.The solution holding of the porous solid electrolyte was tested by isothermal TGA measurements,which illustrate that the mass loss was only 10% at 60℃ in the open air for 1.5 h.It shows that the porous solid electrolyte prepared by this process has the potential application in the lithium ion battery,and that this method of membrane formation is nonpoisonous to the environment.
Microporous membrane was newly derived from P(VDF-HFP)/acetone/water system by dry-casting in the air. The structure of microporous P(VDF-HFP) membrane was observed through SEM. It was found that the pores were distributed uniformly in the whole membrane, some pearls were attached onto the skeleton and the diameter of the pores was in the order of a few microns. The porosity of the membrane was measured up to 72% by weighting the membrane's mass before and after absorption of n-butanol. The crystallization behavior of the copolymer was studied with DSC before and after the formation of microporous membrane. In order to understand the morphology of the membrane,the process of the formation of micropores was discussed based on both the kinetic and thermodynamic points in the paper. The porous P(VDF-HFP) electrolyte was prepared by impregnating the membrane with PC/EC liquid electrolyte. The resistance of the solid porous electrolyte was measured by the ZL5 intelligent LCR meter,and the conductivity was evaluated from equation, sigma = L/( RS). At ambient temperature the conducting can reach 10(-3) S/cm. The solution holding of the porous solid electrolyte was tested by isothermal TGA measurements, which illustrate that the mass loss was only 10% at 60degreesC in the open air for 1.5 h. It shows that the porous solid electrolyte prepared by this process has the potential application in the lithium ion battery, and that this, method of membrane formation is nonpoisonous to the environment.
出处
《高分子学报》
SCIE
CAS
CSCD
北大核心
2003年第1期139-142,共4页
Acta Polymerica Sinica
