EC / List no.: 231-834-5
CAS no.: 7758-11-4
Mol. formula: H3O4P.2K
Dipotassium phosphate (K2HPO4) (also dipotassium hydrogen orthophosphate; potassium phosphate dibasic) is the inorganic compound with the formula K2HPO4.(H2O)x (x = 0, 3, 6).
Together with monopotassium phosphate (KH2PO4.(H2O)x), it is often used as a fertilizer, food additive, and buffering agent.
Dipotassium phosphate is a white or colorless solid that is soluble in water.
Dipotassium phosphate is produced commercially by partial neutralization of phosphoric acid with two equivalents of potassium chloride:
H3PO4 + 2 KCl → K2HPO4 + 2 HCl
Uses:
As a food additive, dipotassium phosphate is used in imitation dairy creamers, dry powder beverages, mineral supplements, and starter cultures.
Dipotassium phosphate functions as an emulsifier, stabilizer and texturizer; it also is a buffering agent, and chelating agent especially for the calcium in milk products.
As a food additive, dipotassium phosphate is categorized by the United States Food and Drug Administration as generally recognized as safe (GRAS).
Dipotassium phosphate is a chemical compound commercially made by combining phosphate, phosphorus, and sodium.
This results in a white powdery substance that easily dissolves in liquid and can be used as a fertilizer, food additive, or buffering agent.
Why do food/alt-milk companies use it?
It’s used as an emulsifier, stabilizer, and texturizer.
And in oat milk, specifically, it’s used as an acidity regulator to help the oat milk interact with coffee and also allow it to steam better.
Why should you be concerned?
It’s a man-made chemical substance.
Dipotassium phosphate has ZERO health benefits and overconsumption can actually lead to serious kidney issues.
Because of it’s over-abundance in foods, most Americans are getting too much phosphorus.
The build up of Dipotassium phosphate in the blood is not only linked to chronic kidney disease, but also a higher risk of heart disease, calcium deposits, hardening of the arteries in the heart, and a negative impact on bone health
If you see Dipotassium Phosphate on the ingredient list it should be a big warning sign that the food in that package is heavily processed and may be harmful to your health.
What Is Dipotassium Phosphate?
Dipotassium phosphate (DKP) is a water-soluble salt that usually comes in the form of a colourless, white substance. Commercially, it’s known as a food additive, fertiliser, and buffering agent.
For health and fitness, dipotassium phosphate supplements are sought for the part they play in the production of ATP (adenosine triphosphate), which is a high-energy molecule that your body requires for energy.
Dipotassium phosphate is a top source of potassium and phosphorus.
This is where the ‘phosphate’ part comes in. Phosphate is a charged particle that contains the mineral phosphorus.
Your body needs this to be able to maintain, repair and rebuild your healthy teeth and bones.
Not only this, but phosphate makes your muscles contract and function as they should.
Dipotassium Phosphate Uses
DKP is commonly used for the properties that make it effective as an emulsifier, stabiliser and texturiser.
Though it’s considered safe, some are convinced it has potentially dangerous health effects.
In the food industry, dipotassium phosphate functions as an effective buffering agent and chelating agent, which may also be used for yeast food, emulsifying salt, and a synergistic agent of antioxidation.
Further to this dipotassium phosphate can be found on many a jar and packet label due to its use as a food additive.
Its role here is to lower the acid levels in processed foods, along with lowering the sodium levels in low-sodium cheeses.
Dipotassium phosphate is also used as a stabiliser in non-dairy creamers to prevent coagulation.
Dipotassium phosphate is also edible and used for health benefits as a nutrient supplement and as a protein stabiliser in weight training drinks and powder mixes.
Dipotassium Phosphate Benefits
At a quick glance, the primary benefit of dipotassium phosphate is that it is a convenient source of potassium, which contributes to your normal muscle function.
For weightlifters, bodybuilders and athletes, dipotassium phosphate supplements may be useful for several reasons.
1. May increase energy in workouts
Firstly, it can be used in energy supplements for workouts requiring prolonged periods of work without rest, such as long-distance running, team sports, high-intensity interval training and endurance-style weightlifting sessions.
Dipotassium phosphate does this by supporting the recovery of your muscles, which means a better recovery rate and the ability to get in more lifts.
However, the evidence suggests that the results of potassium phosphate supplementation may vary based on individual response and the specific supplement protocol.
To summarise, dipotassium phosphate improves endurance by increasing your body’s efficiency in transporting oxygen to your muscles, thus helping energy production.
This is particularly effective for high intensity and particularly strenuous exercises such as heavy lifting and sprints.
2. Helps increase your intake of potassium
Potassium is one of the seven essential macro minerals, of which your body requires at least 100 milligrams on a daily basis in order to sufficiently support its key processes.
Whilst it’s possible to hit your requirements from dietary sources such as fruits, vegetables, fish and meat, supplementing potassium can help increase your daily intake.
A healthy intake of potassium decreases your risk of stroke, lowers your blood pressure, protects you against the loss of muscle mass, preserves your bone mineral density, and reduces the risk of kidney stones.
Dipotassium phosphate (K2HPO4) is a common source of phosphorus and potassium, which is often used as a fertilizer.
Dipotassium phosphate is also widely applied in the food industry, such as food additive and electrolyte replenisher for workout supplement.
Another usage of dipotassium phosphate is as a medicine, who serves as a diuretic or laxative.
Besides, Dipotassium phosphate is employed in the production of imitation dairy creamers to prevent coagulation and used in certain powders to prepare beverages.
In addition, Dipotassium phosphateis commonly seen in chemical laboratories for producing buffer solutions and trypticase soy agar which is used to make agar plates for culturing bacteria.
Physical properties
White amorphous powder; deliquesces; decomposes on heating; converts to pyrophosphate when ignited; very soluble in water, 167 g/100mL at 20°C; very soluble in alcohol; aqueous solution slightly alkaline.
Uses:
Buffer solutions.
Buffering agent in antifreeze solutions; nutrient in the culturing of antibiotics; ingredient of instant fertilizers; as sequestrant in the preparation of non-dairy powdered coffee creams.
dipotassium phosphate is used as a buffering agent to control the degree of acidity in solutions.
Dipotassium Phosphate is the dipotassium salt of phosphoric acid which functions as a stabilizing salt, buffer, and sequestrant.
Dipotassium phosphate is mildly alkaline with a ph of 9 and is soluble in water with a solubility of 170 g/100 ml of water at 25°c.
Dipotassium phosphate improves the colloidal solubility of proteins.
Dipotassium phosphate acts as a buffer against variation in ph. For example, it is used in coffee whiteners as a buffer against ph variation in hot coffee and to prevent feathering.
Dipotassium phosphate also functions as an emulsifier in specified cheeses and as a buffering agent for processed foods.
Dipotassium phosphate is also termed dipotassium monohydrogen orthophosphate, potassium phosphate dibasic, and dipotassium monophosphate.
Dipotassium hydrogen phosphate is a potassium salt that is the dipotassium salt of phosphoric acid.
Dipotassium phosphate has a role as a buffer.
Dipotassium phosphate is a potassium salt and an inorganic phosphate.
Potassium Phosphate, Dibasic is the dipotassium form of phosphoric acid, that can be used as an electrolyte replenisher and with radio-protective activity.
Upon oral administration, potassium phosphate is able to block the uptake of the radioactive isotope phosphorus P 32 (P-32).
Use and Manufacturing
Sequestrant; emulsifier in specified cheeses
Most of the commercial output of dipotassium phosphate is used in conjunction with borates, nitrites, nitrates, and/or silicates as corrosion inhibitor systems in ethylene glycol antifreeze formulations. Its second largest use is as a buffer in coffee creamers to prevent casein protein precipitation by coffee acids.
Other uses include specialty fertilizers, paper-processing aids, and saline cathartics.
Industry Uses
Agricultural chemicals (non-pesticidal)
Corrosion inhibitors and anti-scaling agents
Functional fluids (closed systems)
Intermediates
Laboratory chemicals
Lubricants and lubricant additives
Metal surface cleaner
Processing aids, not otherwise listed
Solids separation agents
Surface active agents
Consumer Uses
Agricultural products (non-pesticidal)
Anti-freeze and de-icing products
Cleaning and furnishing care products
Laboratory Use
Lubricants and greases
Non-TSCA use
Water treatment products
General Manufacturing Information
Industry Processing Sectors
All other basic inorganic chemical manufacturing
All other chemical product and preparation manufacturing
Computer and electronic product manufacturing
Food, beverage, and tobacco product manufacturing
Industrial gas manufacturing
Nonmetallic mineral product manufacturing (includes clay, glass, cement, concrete, lime, gypsum, and other nonmetallic mineral product manufacturing.
Oil and gas drilling, extraction, and support activities
Paint and coating manufacturin
Pesticide, fertilizer, and other agricultural chemical manufacturing
Petrochemical manufacturing
Petroleum lubricating oil and grease manufacturing
Petroleum refineries
Pharmaceutical and medicine manufacturing
Plastics product manufacturing
Primary metal manufacturing
Soap, cleaning compound, and toilet preparation manufacturing
Utilities
Phosphates like disodium phosphate are derived from the element phosphorus. They’re used to enhance food characteristics like nutritional value and cooking performance. Disodium phosphate is used in packaged foods, including macaroni and pastas. It’s also used in some cheeses as an emulsifier. You can also find it in meat products, canned sauces, Jell-O, evaporated milk, and some chocolate.
Originally derived from animal bones and urine, phosphorus is now extracted from phosphate rock. It’s purified and put through chemical reactions.
Dipotassium phosphate (K2HPO4) is a highly water-soluble salt often used as a fertilizer and food additive as a source of phosphorus and potassium as well as a buffering agent.
Dipotassium phosphate is an ionic compound used for electrolyte replenishment and total parenteral nutrition (TPN) therapy.
Dipotassium phosphate is used in imitation dairy creamers, dry powder beverages, mineral supplements, and starter cultures as an additive.
Dipotassium phosphate is used in non-dairy creamers to prevent coagulation.
Dipotassium phosphate is also used to make buffer solutions and it is used in the production of trypticase soy agar which is used to make agar plates for culturing bacteria.
Dipotassium phosphate is a food additive, one which has been repeatedly ruled safe by the United States Food and Drug Administration, as well as numerous similar bodies around the world.
As the name would suggest, it is created through the chemical fusion of potassium and phosphate, creating a salt that is stable at room temperature and dissolves readily in water.
Dipotassium phosphate (occasionally abbreviated to DKP) is not as common or as versatile as some other additives, but still sees use in several major areas of food and drink production.
Five Common Uses for Dipotassium Phosphate in Food and Drink
As a buffering agent
DKP has relatively little flavor and is therefore sometimes used as a buffering agent in powdered foods – or medicines.
For example, it’s commonly seen in a lot of food powders to add a safe relatively inert material.
As an anti-coagulation agent
DKP is good at preventing coagulation in liquids which might otherwise separate while in transit, or on the shelf.
One significant application, in this case, is non-dairy liquid creamers, where it maintains the creamy texture of the product across a long shelf life.
As an antioxidant
Dipotassium phosphate is one of numerous preservatives with antioxidant properties and can be found in numerous food products because of that.
As an anti-acid agent
DKP can be used in numerous dairy products, particularly cheeses, as a way of lowering their acid content.
In some cases, it may also lower sodium levels as well, and is common in low-sodium cheese.
As a health supplement
Perhaps the biggest single market for DKP is the health supplement market, where it is sold as a product that consumers can add to their own foods.
As an excellent and safe source of both potassium and phosphates, it’s particularly popular among bodybuilders and other athletes.
Along with this, it’s seen in many protein drinks, as it can serve as both a preservative as well as a source of potassium and phosphates.
Dipotassium phosphate is also believed to be beneficial in reducing muscle pain after workouts, as well as improvements in the transportation of oxygen around the body.
Although dipotassium phosphate is safe for healthy individuals, it can be dangerous for those with common health problems, including kidney disease, severe heart and lung disease, and thyroid problems.
It’s used as a buffering agent in antifreeze, and in food as an additive to emulsify, stabilize, or provide texture.
As a synthetic salt, dipotassium phosphate is inconsistent with clean eating ideology.
What are phosphates?
Phosphates are a group of inorganic chemicals that are obtained through the neutralization of phosphoric acid which results in the substitution of a hydrogen cation and produces a salt.
There are several varieties of phosphate salts, depending on the reaction source, such as potassium hydroxide being used to create a potassium phosphate.
How is Dipotassium Phosphate made?
Dipotassium Phosphate (DKP) has been used in food production for decades and is made by reacting a source of potassium (usually potassium hydroxide) with phosphoric acid.
Food-grade phosphoric acid is made from phosphate rocks, which are mined, refined and purified. Companies that make phosphoric acid in the U.S., Europe and elsewhere follow strict procedures to ensure purity.
The phosphoric acid is reacted with potassium hydroxide and lime water to form a wet mix.
The resulting reaction creates potassium phosphate, which is then dried and crystalized.
Finally the product is sized down to specifications.
Food grade phosphates that are manufactured in the United States comply with the new regulations for food safety as set forth in the Food Safety Modernization Act.
Why are phosphates in my food?
DKP has many uses in food.
Dipotassium phosphate has the ability to act as an emulsifier, protein stabilizer and buffering agent.
In addition it can provide a source of Potassium for many foods that otherwise would not have that.
Some common uses are as follows:
Coffee Creamers – DKP can help stabilize the protein layer around fat droplets present in the milk, which helps prevent syneresis and curdling when added to a hot beverage.
Processed cheese products – DKP help buffer the pH and interact with the milk proteins to promote emulsification.
Nutrient resource – the potassium present can be used as a mineral supplement for pharmaceuticals and a nutrient base during yeast production and other fermentation processes.
Soy protein based beverages – DKP can help stabilize soy proteins and act as a dispersing agent.
How do phosphates benefit my health?
DKP provides potassium which is an important nutrient for the body.
Dipotassium Phosphate (abbreviation DKP), the soluble phosphoric acid salt of dipotassium with the chemical formula K2HPO4, also known as dipotassium hydrogen phosphate or potassium phosphate dibasic.
This ingredient is vegan & gluten-free and can be used as a buffer, sequestrant and nutrient supplement in food with the European food additive number E340(ii).
Like monopotassium phosphate, it is also used to produce fertilizers, while tripotassium phosphate isn’t.
How is Dipotassium Phosphate made?
DKP can be commercially synthesized by the controlled reaction of phosphoric acid with potassium hydroxide or potassium carbonate.
The following are the chemical equations:
H3PO4+2KOH — K2HPO4+2H2O
K2CO3+H3PO4 — K2HPO4+H2O+CO2
DKP is a weak base, it dissociates PO43- and H+ after dissolved in water.
At the same time, it reacts with water to form H2PO4- and OH- as the following chemical equation indicates:
HPO42- → PO43- + H+
H2PO4- + H2O → H3PO4 + OH-
What are the uses of Dipotassium Phosphate?
DKP is a highly water-soluble inorganic salt that can be used in a lot of applications, commonly as a food additive and fertilizer.
Food
Dipotassium phosphate is commonly used as a buffering agent, mineral supplement, sequestrant, emulsifier, and a synergistic agent of antioxidation in food.
Dipotassium phosphate is a base so cannot be used as a leavening acid like monopotassium phosphate.
You may find this ingredient in the following food products:
Non-dairy creamers
Milk products
Mineral supplements
Powdered beverages
Cheeses
Meat
Low-sodium products
Buffering agent
DKP is a buffering agent or an acidity regulator to maintain solution PH to a specific value.
DKP is added to reduce a rapid change in pH when acids or bases are added to the solution.
DKP is used for this purpose to prevent coagulation in non-dairy creamer.
In milk, it increases pH to assure milk protein stability and prevents precipitation.
Drink
DKP is a common source of phosphorus and potassium.
In Coca Cola’s beverages, it is a source of potassium, which provides nutrition and also regulates blood pressure.
Bodybuilding
Phosphorus plays an important role in the production of ATP (adenosine triphosphate), which produces energy for bodybuilders, weightlifters, and athletes during muscular performance. Meanwhile, potassium is an electrolyte which replenishes our body after sweating a lot.
DKP can be used as a nutrient supplement source of both phosphorus and potassium, and also as a buffering agent in energy drinks and a protein stabilizer in protein drinks.
Fertilizer
As a water-soluble phosphorus and potassium-based fertilizer in agricultural applications for growing plants.
Others
DKP can also be used in the culture of microorganisms (e.g. fermentation processes of antibiotics and yeast ) as phosphorus is a component essential for microorganisms growth.
About Dipotassium phosphate
Helpful information
Dipotassium phosphate is registered under the REACH Regulation and is manufactured in and / or imported to the European Economic Area, at ≥ 10 000 to < 100 000 tonnes per annum.
Dipotassium phosphate is used by consumers, by professional workers (widespread uses), in formulation or re-packing, at industrial sites and in manufacturing.
Consumer Uses
Dipotassium phosphate is used in the following products: fertilisers, anti-freeze products and washing & cleaning products. Other release to the environment of Dipotassium phosphate is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners), outdoor use and indoor use in close systems with minimal release (e.g. cooling liquids in refrigerators, oil-based electric heaters).
Article service life
ECHA has no public registered data on the routes by which Dipotassium phosphate is most likely to be released to the environment. ECHA has no public registered data indicating whether or into which articles the substance might have been processed.
Widespread uses by professional workers
Dipotassium phosphate is used in the following products: fertilisers, washing & cleaning products, air care products and anti-freeze products.
Dipotassium phosphate is used in the following areas: agriculture, forestry and fishing, health services and building & construction work.
Dipotassium phosphate is used for the manufacture of: machinery and vehicles and chemicals.
Release to the environment of Dipotassium phosphate can occur from industrial use: formulation of mixtures.
Other release to the environment of Dipotassium phosphate is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners), outdoor use and indoor use in close systems with minimal release (e.g. cooling liquids in refrigerators, oil-based electric heaters).
Formulation or re-packing
Dipotassium phosphate is used in the following products: fertilisers, washing & cleaning products, air care products, anti-freeze products, metal surface treatment products, pharmaceuticals and water treatment chemicals.
Release to the environment of Dipotassium phosphate can occur from industrial use: formulation of mixtures, formulation in materials and manufacturing of the substance.
Uses at industrial sites
Dipotassium phosphate is used in the following products: pH regulators and water treatment products, metal surface treatment products, pharmaceuticals, water treatment chemicals and fertilisers.
Dipotassium phosphate is used in the following areas: municipal supply (e.g. electricity, steam, gas, water) and sewage treatment and health services.
Dipotassium phosphate is used for the manufacture of: chemicals, metals, fabricated metal products and machinery and vehicles.
Release to the environment of Dipotassium phosphate can occur from industrial use: as processing aid, in processing aids at industrial sites, of substances in closed systems with minimal release and as an intermediate step in further manufacturing of another substance (use of intermediates).
Manufacture
Release to the environment of Dipotassium phosphate can occur from industrial use: manufacturing of the substance and formulation of mixtures.
Dipotassium phosphate is widely used in molecular biology, biochemistry, and chromatography.
Dipotassium Phosphate is an inorganic compound that functions as an emulsifier, stabilizer, and texturizer.
Dipotassium phosphate can mostly be found used in imitation-dairy creamers, dry-powder beverages, mineral supplements, and starter cultures.
White powder
Odorless
Slightly soluble in alcohol
Dipotassium phosphate (K2HPO4) is a common source of phosphorus and potassium.
As a food additive, it is used in non-dairy creamers, dry powder beverages, and mineral supplements.
Other uses include the following:
Fertilizer additive
Lab Reagent
Multi-purpose surfactant
Specialty fertilizer
Automotive antifreeze formulations
Nutrient for antibiotics
Pharmaceutical ingredient
Tripotassium phosphate (K3PO4) is used as a food additive for its properties as an emulsifier, foaming agent, and whipping agent.
Dipotassium phosphate has a very high melting point of 1380o Celsius which allows it to be heated to remove water without decomposing the salt.
In combination with fatty acids it is a potential antimicrobial agent in poultry processing.
Other uses include:
Alkaline buffer
Emulsifier
Drinking water treatment
Lab reagent
Specialty fertilizer
Automotive antifreeze formulations
Pharmaceutical ingredient
Dipotassium Phosphate is an inorganic compound which is an extremely water-soluble salt.
Dipotassium phosphate is generally used as a fertiliser as it is a great source of potassium and phosphorus.
Dipotassium phosphate is also used as a food additive as a good source for potassium and phosphorus.
Dipotassium phosphate also finds its application as a buffering agent.
Buffering agents are used to maintain the pH value of a solution near a particular chosen value.
Dipotassium phosphate is added during a chemical process so as to reduce the rapid change in the composition of the compound when acids or bases are added to it.
There are different types of acid and base buffers like acetic acid, sodium acetate, sodium bicarbonate etc.
Characteristics of Dipotassium Phosphate
The IUPAC name of this compound is dipotassium hydrogen phosphate
The density of Dipotassium Phosphate is 2.44g/cm3
The K2HPO4 molecular weight or molar mass is 174.2g/mol
Dipotassium phosphate accepts four hydrogen bonds The melting point of this compound is greater than 465 °C
The chemical formula of the compound is K2HPO4Dipotassium phosphate is freely soluble in water
Dipotassium phosphate is insoluble in ethanol
The production of K2HPO4 is done in the process of condensation of phosphoric acid using potassium hydroxide
As a result, Phosphoric acid is manufactured from the rock of phosphate, which is found commonly in several places around the globe.
Physical Properties of Dipotassium Phosphate (K2HPO4)
The Dipotassium Phosphate compound is odourless The colour of the compound is white.
Dipotassium phosphate is a deliquescent solid which means that it tends to absorb moisture from the air and dissolve in it.
Dipotassium phosphate is a three covalently bonded unit.
The molecule of this compound has a heavy atom count of 7.
The complexity of the compound is 4605.
The compound can be easily soluble in water
Chemical Properties of Dipotassium Phosphate (K2HPO4)
Reaction with hydrochloric acid (HCL)
The compound Dipotassium Phosphate when reacts with hydrochloric acid, it forms potassium chloride and phosphoric acid.
The chemical equation of the reaction is given below:
-K2HPO4 + 2HCl → 2KCl + H3PO4
Reaction with sodium hydroxide (NaOH)The compound dipotassium hydrogen phosphate when reacts with a base, sodium hydroxide it forms disodium hydrogen phosphate and water.
2NaOH + 3K2HPO4 → 2K3PO4 + 2H2O + Na2HPO4
Uses of Dipotassium Phosphate
Dipotassium phosphate is used in fertilisers.
Dipotassium phosphate is used as a component of fertilisers because of its highly water-soluble nature.
Dipotassium phosphate supplies the growing plants with a large percentage of phosphorus.
Dipotassium phosphate is used as a food additive.
The grades of dipotassium hydrogen phosphate used in foods are different than that which are used in fertilisers.
Dipotassium phosphate is added in milk to increase its pH.
This is done in order to increase the net micelle charge.
Micelles are aggregates of molecules.
Dipotassium phosphate is used in the micelles as a competitive displacement of calcium by sodium.
A phosphate inhibitor such as Dipotassium phosphate (DKP) is included in many antifreeze formulas to provide several important functions that help reduce automotive cooling system damage.
The benefits provided by the phosphate include:
Protect aluminum engine components by reducing cavitation corrosion during high-speed driving.
Provide for corrosion protection to ferrous metals.
Act as a buffer to keep the antifreeze mixture alkaline
IUPAC NAMES:
di-Potasio Hidrógeno Fosfato anhidro
di-Potassium hydrogen phosphate
dipotassium hydrogen orthophosphate
Dipotassium hydrogen phosphate
dipotassium hydrogen phosphate
DIPOTASSIUM HYDROGENORTHOPHOSPHATE
Dipotassium hydrogenorthophosphate
dipotassium hydrogenorthophosphate
Dipotassium Hydrogenorthophosphate
Dipotassium hydrogenorthophosphate
dipotassium hydrogenorthophosphate
dipotassium hydrogenphosphate
Dipotassium hydrogenphosphate, Dipotassium phosphate, Potassium phosphate dibasic, sec-Potassium phosphate
Dipotassium Phosphate
Dipotassium phosphate
dipotassium phosphate
dipotassium;hydrogen phosphate
DKP
phosphoric acid potassium salts (1:3)
Potassium hydrogen phosphate
Potassiun hydrogenorthophosophate
SYNONYMS:
7758-11-4
Dipotassium hydrogen phosphate
DIPOTASSIUM PHOSPHATE
Potassium phosphate dibasic
Dipotassium hydrogenphosphate
Dibasic potassium phosphate
Potassium Hydrogen Phosphate
Potassium phosphate, dibasic
Potassium dibasic phosphate
Phosphoric acid, dipotassium salt
Dipotassium monophosphate
Potassium monohydrogen phosphate
Dipotassium hydrogenorthophosphate
K2HPO4
Potassium monophosphate
MFCD00011383
Dipotassium monohydrogen phosphate
Dipotassium orthophosphate
Hydrogen dipotassium phosphate
Potassium phosphate (dibasic)
sec.-Potassium phosphate
potassium hydrogenphosphate
Phosphoric acid, potassium salt (1:2)
UNII-CI71S98N1Z
di-potassium hydrogen phosphate
CI71S98N1Z
Dipotassium hydrogen orthophosphate
Potassium phosphate dibasic, ACS reagent
di-Potassium hydrogen phosphate, anhydrous
Isolyte
Dipotassium-O-phosphate
Potassium phosphate, dibasic, 98+%, ACS reagent
Potassium phosphate, dibasic, 1.0M solution in water
Potassium phosphate, dibasic, 99+%, for analysis, anhydrous
CCRIS 6544
HSDB 935
Kali phosphoricum
Leex-A-phos
EINECS 231-834-5
Mediject P (TN)
di potassium phosphate
ACMC-20al4r
Dipotassium acid phosphate
Potassium phosphate,dibasic
HK2O4P
dipotasium hydrogen phosphate
Secondary potassium phosphate
potassium monohydrogenphosphate
potassium hydrogen monophosphate
Dipotassium hydrogen monophosphate
CHEBI:131527
E-340(II)
dipotassium monohydrogen orthophosphate
potassium dibasic phosphate trihydrate
Potassium hydrogen phosphate, anhydrous
Potassium phosphate, dibasic (JAN/USP)
Potassium phosphate, dibasic [USP:JAN]
Potassium phosphate dibasic, LR, >=98%
S293
SY010082
DI-POTASSIUM HYDROGEN ORTHOPHOSPHATE
Potassium phosphate dibasic solution, 1.0 M
Potassium phosphate dibasic, Biochemical grade
Potassium phosphate dibasic, puriss., >=99%
D02403
EC 231-834-5
Potassium phosphate dibasic, ACS reagent, >=98%
Potassium phosphate dibasic, USP, 98.0-100.5%
Potassium phosphate dibasic, AR, anhydrous, >=99%
Potassium phosphate dibasic, reagent grade, >=98.0%
Potassium phosphate dibasic, 99.95% trace metals basis
Potassium phosphate dibasic, SAJ first grade, >=98.0%
Potassium phosphate dibasic, Trace metals grade 99.95%
Potassium phosphate, dibasic, 99%, for HPLC, anhydrous
Potassium phosphate dibasic, JIS special grade, >=99.0%
Potassium phosphate dibasic, Vetec(TM) reagent grade, 98%
UNII-B7862WZ632 component ZPWVASYFFYYZEW-UHFFFAOYSA-L
Potassium phosphate dibasic, meets USP testing specifications
Dibasic potassium phosphate, United States Pharmacopeia (USP) Reference Standard
Potassium phosphate dibasic, anhydrous, free-flowing, Redi-Dri(TM), ACS reagent, >=98%
Potassium phosphate dibasic, puriss. p.a., ACS reagent, anhydrous, >=99.0% (T)
Potassium phosphate dibasic anhydrous, PharmaGrade, USP, Manufactured under appropriate GMP controls for pharma or biopharmaceutical production.
Potassium phosphate dibasic, anhydrous, for luminescence, for molecular biology, BioUltra, >=99.0% (T)