Hf precursor TDEAH (Hf(NEt2)4): Difference between revisions
No edit summary |
No edit summary |
||
| Line 1: | Line 1: | ||
This is the structure of the organic precursor for Hafnium oxide deposition in a CVD ([[Hafnium_oxide_deposition_(CVD)]]) | |||
[[File:TDEAH.png|200px]] | |||
as described in the following [https://download.libresilicon.com/papers/HafniumOxide.pdf Japanese paper] | |||
<span style="color:red"> | |||
<b>WARNING!</b> | |||
This chemical reacts VIOLENTLY with water and humidity in general! | |||
Caution is required when dealing with it! | |||
</span> | |||
===Chemical properties of Hafnium-Tetrachloride=== | |||
The base of this chemical recipe and processing is Hafnium-Tetrachloride, as it can be seen in the picture. | The base of this chemical recipe and processing is Hafnium-Tetrachloride, as it can be seen in the picture. | ||
[[File:High-Quality-Hafnium-Chloride-Hafnium-Tetrachloride-Hfcl4-CAS-No-13499-05-3-with-Best-Price.jpg|200px|Hafnium-Tetrachloride]] | [[File:High-Quality-Hafnium-Chloride-Hafnium-Tetrachloride-Hfcl4-CAS-No-13499-05-3-with-Best-Price.jpg|200px|Hafnium-Tetrachloride]] | ||
[[File:34591.png|200px|left]] | [[File:34591.png|200px|left]] | ||
| Line 16: | Line 29: | ||
The result of those chemical reactions is a crystalline powder with a melting point of 432 °C | The result of those chemical reactions is a crystalline powder with a melting point of 432 °C | ||
You might notice that Hafnium-Tetrachloride is a solid crystal at room temperature, which is kind of a problem considering that we wanna use it as a vapor in our CVD furnace, in order to react it with oxide for obtaining a Hafnium-Oxide thin film layer. | You might notice that Hafnium-Tetrachloride is a solid crystal at room temperature, which is kind of a problem considering that we wanna use it as a vapor in our CVD furnace, in order to react it with oxide for obtaining a Hafnium-Oxide thin film layer. | ||
==Atmospheric requirements== | ==Atmospheric requirements== | ||
Revision as of 14:21, 12 October 2022
This is the structure of the organic precursor for Hafnium oxide deposition in a CVD (Hafnium_oxide_deposition_(CVD))
as described in the following Japanese paper
WARNING! This chemical reacts VIOLENTLY with water and humidity in general! Caution is required when dealing with it!
Chemical properties of Hafnium-Tetrachloride
The base of this chemical recipe and processing is Hafnium-Tetrachloride, as it can be seen in the picture.
HfCl4 can be produced by several related procedures:
- The reaction of carbon tetrachloride and hafnium oxide at above 450 °C;
- HfO2 + 2 CCl4 → HfCl4 + 2 COCl2
- Chlorination of a mixture of HfO2 and carbon above 600 °C using chlorine gas or sulfur monochloride:
- HfO2 + 2 Cl2 + C → HfCl4 + CO2
- Chlorination of hafnium carbide above 250 °C.
The result of those chemical reactions is a crystalline powder with a melting point of 432 °C
You might notice that Hafnium-Tetrachloride is a solid crystal at room temperature, which is kind of a problem considering that we wanna use it as a vapor in our CVD furnace, in order to react it with oxide for obtaining a Hafnium-Oxide thin film layer.
Atmospheric requirements
Since this mixture and its components react with oxygen and humidity, we need to use a Schlenk tube setup for mixing it, because we can only do it in an inert atmosphere.
Chemical reaction
With a temperature of 117°C and a pressure of 0.04 torr the following reaction will occur within an inert atmosphere (Argon/Nitrogen):
HfCl4 + Et2NLi → TDEAH (Hf(NEt2)4)
The yield typically is around 60%
The waste products will be some carbon hydrates (not the stuff in white bread)