20171121 UNDANGAN PELAKSANAAN POC BATTERY LITHIUM
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In order to analyze the interaction between LLTO solid electrolyte and the LFP-C cathode material, whether it forms some non-passivating layers or makes irreversible changes during the
The results of the 4th order polynomial regression analysis shows that increased LiTFSI corresponds to increased conductivity, however increased LiBOB corresponds to decreased
+45 ºC Skladovací teplota -20…+40 °C rozšířený teplotní rozsah -30…+70 °C vyjmutá baterie Relativní vlhkost vzduchu Fără condensare la 40 °C Elektrické údaje Technologie UHF RFID
+45 ºC Storage temperature -20…+40 °C Extended storage temperature range -30…+70 °C battery removed Relative humidity Non-condensing at 40 °C Electrical data Technology UHF RFID
+45ºC Saklama sıcaklığı -20…+40 °C Extended storage temperature range -30… 70°C pil çıkarılmış Relative humidity 40°C'de yoğuşmasız Elektrik verileri Teknoloji UHF RFID HF RFID
Challenging issues Solutions Li dendrite growth Pre-lithiation of anode Insulating nature Conducting agent Low mass-loading ≤ 2mg/cm2 high specific-area carbon- based current
Nominal duct flow rate l/s 24 Initial mass g 5 Surface area of the cup cm² 21.65 Start and End of test criterion ISO 5660-1:2002 Duct diameter m 0.114 Ambient temperature °C 25
In this work, we use Au as the prototype electrode material because of its chemical stability and DME as the electrolyte because of its high yield of Li2O2upon first discharge.10We
