전류를 이용해 금속을 코팅하는 공정. 도금할 금속을 전도성 표면(금속)이나 비전도성 표면(플라스틱·나무·가죽)으로 이동시킨다. 비전도성 표면의 경우에는 표면에 흑연, 전도성 래커, 비전착성(非電着性) 판 등으로 코팅하거나 증착피막을 만들어 전도성을 띠게 한 다음 도금한다.
나노화합물을
oxide Nanotube를 만드는 방법을 살펴보면, 우선 틀이 되는 CNT에 Layer-by-Layer assembly를 통해 polyelectrolytes를 붙인다. 그 다음, 이온화합물 상태의 목표 금속(산화물이 될)을 이온 상태의 복합체 (Ion Complex)를 형성할 수 있도록 준비한다. (예를 들어 InCl3 with citric acid) 이 복합체의 전체 극성에 따라 CNT에 붙이는 po
:
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
4. Equipment
4.1 RCA cleaning
RCA cleaning is a series of rinsing procedure prior to experiment with Si wafer. The purpose of the RCA clean is to remove organic contaminants (such as dust particles, grease or silica gel) from the wafer surface. There are three steps to be performed. The first step is to remove organic contaminant from surface of wafer. Second step is to remove any oxide layer
Oxidation of Graphite
What happens to Graphite?
Nanochannels or micropores are made.
Effects of Mild 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-