SSD chemical solution is a highly volatile substance used primarily for cleaning defaced DFX banknotes. At Gemonog Chemical Laboratory, our experts have conducted advanced SSD solution research to help enthusiasts understand this complex topic better. Below, we present a comprehensive, step-by-step breakdown of how to safely prepare SSD solution by GCL at home.
What Is SSD Chemical?
SSD chemical is a liquid solvent developed to clean coated and defaced black money, primarily DFX currency notes. It is composed of highly reactive substances, which makes it one of the most dangerous chemicals known. According to international safety standards, it is banned in many countries due to its combustion risk, toxicity, and black-market association.
SSD Chemical Composition and Structure
SSD solution is formed using a combination of:
NaCl (Sodium Chloride)
H₂O (Distilled Water)
MgNgK 0.01% (Special Electrons Element)
C₄H₈ (Butene)
H₂SO₄ (Sulfuric Acid)
C₃H₆O (Acetone)
Au 79 (Gold Element)
It contains over 96% electron properties, and its molecular charge is approximately -2.369, indicating high reactivity.
Solute vs Solvent – The Foundation of SSD Solution
Before making SSD chemicals, it’s essential to know:
Solute: A substance that gets dissolved (e.g., NaCl, C₄H₈)
Solvent: A substance that dissolves other substances (e.g., distilled water)
SSD chemical acts as a solvent, while additional compounds serve as solutes during the mixing process.
Three Main Stages of SSD Chemical Production
1. Chemical Preparation
Collect raw materials with accurate measurements. Ensure access to the primary molecular formula NH18O6MAC7S.
2. Composition Integration
Combine the compounds using a volumetric flask under strict environmental control. Room temperature should be below 25°C, ideally produced between 1 AM and 5 AM when ambient temperatures are lowest.
3. Formula Balancing
Use chemical balancing techniques with the aid of structural analysis software. This ensures that no unwanted combustion reactions occur during or after the mixing.