What is The Formula of Monopotassium Phosphate?
Monopotassium Phosphate is nothing but the monopotassium salt of phosphoric acid bearing the formula KH2PO4.
Monopotassium Phosphate is easily soluble in water and insoluble in ethanol. It is commercially available. Monopotassium Phosphate produces ceramics of high quality at the time of its reaction with MgO. The reaction between the chloride or potassium carbonate and the phosphate generally produce the above-mentioned compound. In the reaction, phosphate is released in pure form as a crystalline material. The industrial preparation of Monopotassium Phosphate involves adding of 1 mol of a water solution of potassium hydroxide to 1 mol of phosphoric acid.
What is Monopotassium Phosphate?
Monopotassium Phosphate is one of the most important inorganic compounds. The main utilization of this compound is as fertilizer, food additive and buffering agent. Sometimes the salt co-crystalizes with the dipotassium salt as well with the phosphoric acid. IUPAC names of Monopotassium Phosphate are Potassium dihydrogen phosphate and Potassium dihydrogen (tetraoxidophosphate) (1- ). The systematic IUPAC name of Monopotassium Phosphate is Potassium dihyroxidophosphate (1-). Other names of the compound are Potassium phosphate monobasic, Phosphoric acid, monopotassium salt and Potassium biphosphate.
What is The Structure of Monopotassium Phosphate?
There is a huge possibility of the existence of Monopotassium Phosphate in several polymorphs. Paraelectric crystals with tetragonal symmetry are formed by the compound at room temperature. If cooling is done up to -150 degree C (-238 degree F) it converts to a ferroelectric phase of orthorhombic symmetry. If hydrogen is replaced by deuterium then the transition temperature shifts up to -50 degree C (-58 degree F). The structure of the Monopotassium Phosphate is changed to monoclinic if the substance is heated up to 190 degree Celcius (374 degree F). If the heat is increased further then Monopotassium Phosphate decomposes because of the loss of water and turns into potassium metaphosphate (KPO3) at 400 degree Celcius (752 degree F). The complete structure of the Monopotassium Phosphate is given in the following table for the convenience of the students.
Structure of The Monopotassium Phosphate
What Are The Properties of Monopotassium Phosphate?
The physical properties, as well as chemical properties of Monopotassium Phosphate, are given in the following.
Physical Properties:
The physical properties of Monopotassium Phosphate are as follows:
Monopotassium Phosphate is odourless.
The physical appearance of the compound is a white powder which is deliquescent.
The covalently bonded unit of the compound is 2.
Heavy atom count of Monopotassium Phosphate is 6.
Complexity of the compound is 61.2.
Monopotassium Phosphate is freely soluble in water.
Chemical Properties:
The chemical properties of Monopotassium Phosphate are as follows:
After dissolving in the water Monopotassium Phosphate forms phosphoric acid and potassium hydroxide. The chemical equation of the above phenomenon is as follows:
KH2PO4 + H2O 🡪 H3PO4 + KOH
Disodium phosphate, water and potassium hydroxide are formed by the reaction between Monopotassium Phosphate and base. The chemical formula of the above reaction is as follows:
KH2PO4 + 2NaOH 🡪 H2O + KOH + Na2HPO4
How Monopotassium Phosphate is synthesized?
The reaction of phosphoric acid on potassium carbonate produces Monopotassium Phosphate.
What are the uses of Monopotassium Phosphate?
Approximately 52% of P2O5 and 34% of K2O are contained in fertilizer grade Monopotassium Phosphate powder. The fertilizer grade Monopotassium Phosphate is symbolised as NPL 0-52-34. There is a remarkable application of Monopotassium Phosphate in the greenhouse trade and in hydroponics as a nutrient.
Monopotassium Phosphate is vastly used as a crystal for its non-linear optical properties. The powder form of the compound applied in optical modulators and for non-linear optics like a second harmonic generation.
A modified form of Monopotassium Phosphate is termed as potassium di-deuterium phosphate (KD2PO4). Non-linear frequency conversion of laser light is done by highly deuterated KDP in place of protonated (regular) KDP because the replacement of protons with deuterons in the crystal shifts the third overtone of the strong OH molecular stretch to longer wavelengths, moving it maximum out of the range of the basic line at apparently 1064 mm of neodymium- based lasers. Regular KDP has the absorbance power at this particular wavelength of near about 4.7- 6.3% per cm of thickness at the time when highly deuterated KDP has an absorbance of typically less than 0.8% per cm.
Another notable utilization of Monopotassium Phosphate is as an ingredient in sports drinks like Gatorade and Powerade.
Monopotassium Phosphate is used in the preparation of sodium phosphates, ammonium phosphates, calcium phosphates and other phosphates. The compound is also used in eggs, low sodium products, meat products and milk products for colour preservation.
What are the hazards of Monopotassium Phosphate?
Monopotassium Phosphate is regarded as a mildly hazardous substance. It may cause skin, eye and respiratory tract irritation. The eye is the most possible area of contact with Monopotassium Phosphate and it causes acute eye irritation. If there is prolonged contact with the skin then skin irritation may occur. There is a possibility of upper respiratory tract irritation caused by Monopotassium Phosphate. Intake of a large quantity of Monopotassium Phosphate will cause irritation, nausea, vomiting, diarrhoea, abnormal cramps etc.
How Monopotassium Phosphate is identified?
Monopotassium Phosphate can be identified by the following phenomenons:
CAS number of Monopotassium Phosphate is 7778-77-0.
3D model of the compound appears as an interactive image.
ChEMBL of Monopotassium Phosphate is ChEMBL 1200925.
ECHA InfoCard is 100.029.012.
EC Number of Monopotassium Phosphate is 231-913-4.
E Number of the compound is E340 (I).
RTECS Number of Monopotassium Phosphate is TC6615500.
Monopotassium Phosphate is one of the most vastly used compounds in the agricultural industry. Though there are few hazards in utilizing this compound it is treated as one of the best fertilizers for the plant health. Since it is freely soluble in water it is very easy to use in the field. The hazards can be avoided by taking some preliminary and basic protections. Since there are not too many hazardous components present in the compound there is very much less chance of side effect for its use. Monopotassium Phosphate is commercially available at a very cheap rate and the farmers can buy this for agriculture.
FAQs on Monopotassium Phosphate
1. What exactly is Monopotassium Phosphate and what is its chemical formula?
Monopotassium Phosphate is an inorganic chemical compound, specifically the soluble salt of potassium and the dihydrogen phosphate ion. It is widely used in fertilisers and as a food additive. Its chemical formula is KH₂PO₄.
2. What makes Monopotassium Phosphate so effective as a fertilizer for plants?
Monopotassium Phosphate is an excellent fertiliser because it is a highly efficient source of two essential plant nutrients: phosphorus and potassium. It is completely water-soluble, chloride-free, and has a low salt index, which means it can be quickly absorbed by plants without harming them. This promotes strong root development and improves overall plant health and crop yield.
3. What does the NPK rating of 0-52-34 for Monopotassium Phosphate mean?
The NPK rating represents the percentage of three key nutrients available to plants:
- N (Nitrogen): 0%
- P (Phosphorus): 52% (as P₂O₅)
- K (Potassium): 34% (as K₂O)
This high concentration of phosphorus and potassium, with no nitrogen, makes it ideal for boosting flower and fruit development in plants.
4. Besides fertilisers, what are some common uses of Monopotassium Phosphate in food products?
In the food industry, Monopotassium Phosphate is used as a buffering agent to stabilise pH, a sequestrant to improve food quality and stability, and a nutrient supplement. You can find it in products like sports drinks to help with electrolyte balance, processed dairy products, and as a leavening agent in baked goods.
5. How is Monopotassium Phosphate chemically different from Phosphoric Acid?
The key difference is that Phosphoric Acid (H₃PO₄) is an acid, while Monopotassium Phosphate (KH₂PO₄) is an acidic salt. It is formed when one of the three acidic protons of phosphoric acid is replaced by a potassium ion (K⁺). This makes it less acidic and changes its chemical properties significantly.
6. Why is Monopotassium Phosphate considered safe as a food additive but needs to be handled carefully as a fertilizer?
This difference comes down to purity and concentration. The 'food grade' version of the compound is highly purified to remove any harmful contaminants. It is also used in very small, regulated amounts. The 'fertilizer grade' is less pure and used in much higher concentrations that would be unsafe for direct human consumption.
7. How does this compound provide both phosphorus and potassium to plants in a readily available form?
Because Monopotassium Phosphate is a soluble salt, when it dissolves in water, it dissociates (breaks apart) into potassium ions (K⁺) and dihydrogen phosphate ions (H₂PO₄⁻). Both of these ions are in a form that plant roots can easily absorb and use for their metabolic processes, making it a very efficient source of nutrition.
8. Are Monopotassium Phosphate and Potassium Dihydrogen Phosphate the same thing?
Yes, they are the same chemical compound. 'Potassium Dihydrogen Phosphate' is the systematic name used in chemistry according to IUPAC nomenclature. 'Monopotassium Phosphate' (often abbreviated as MKP) is the more common name used in commercial applications like agriculture and the food industry.
