nano-world)의 정복을 가능케 하였으며, 나노입자(nano-particle), 나노코팅(nano-coating), 나노섬유(nano-fiber)의 활용을 통한 혜택은 현재 많은 이들에 의해 입증되고 있는 중이다.
나노 기술을 이용한 의류 가공에 있어서, 후 가공 공정 중 나노구조를 발현시키는 방법이 있다. 나노물질이나 나노입자를 가공제
Oxidation.
Micropores acts as ‘reservoirs’ for lithium ions storage.
Prevent the graphite anode from expanding by lithium ion intercalation
Si has theoretical capacity of 4200mAh/g
Due to it’s large volume change, pulverization can be occurred.
Silicon has high-capacity but poor cycle stability
Carbon has low-capacity but good cycle stability
So silicon/carbon composit
:
Maximum 200°C/min
*Separate Electric furnace and other system like Electronic scale
-Because Electric furnace temperature is very high
so we need to protect other system.
instrument composition
-Electric furnace
Temperature range:
25°C~1500°C
Heat speed :
Maximum 200°C/min
*Nitrogen or Argon in Electric furnace
-Because the inhibition of oxidization of sample
First, Substrate is consists of a plastic or glass, a portion of the OLED is supportive.Anode is a role that make electron holes when current flows by removing electron. And the upper Conducting Layer is the place that Electron Holes is being created.Emissive Layer is the place accepting an electron from Cathode and produce light.
Emissive layer and conducting layer are called organic layer beca
Nano cellulose fiber
높은 가스차단성
식물의 구성요소이므로 자연친화적
생분해성 (biodegradability)
Nano scale (직경 5~10nm, 길이 ~1000nm)
재생 가능
인체에 무해
생산공정이 간단
(NMMO에 녹여 추출)
사용된 용매 또한 재활용 가능
폭넓은 응용분야