Inorganic Compounds

Zhifan Chemical: Your Premium Inorganic Compounds Supplier

Guangzhou Zhifan Chemical Co., Ltd. is a professional supplier of basic chemical raw materials. Our company was established in 2009 and is located in Guangdong Province, China, providing online and offline wholesale and retail business of chemical materials. Our main products include sodium hydroxide, sodium sulfide, polyaluminum chloride, etc., which are suitable for applications in sewage treatment plants, chemical plants, electronics, printing and dyeing plants, etc.
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Sodium Sulfide 60
Product name: sodium sulfide 60% Brand: Chuanjin Origin: Made in China Product form: Red flakes Product grade: Industries grade Product specifications: 25KG/bag
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Calcium Citric Acid
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Calcium Chloride
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Magnesium Chloride
Magnesium chloride Product grade: Industry grade Product specifications:25KG/Bag CAS No.: 7786-30-3
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Borax Powder
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Boiler Water Treatment
Water treatment chemicals Defoamer, antiscalant, bactericide Product grade: industrial grade Product specifications: 25KG/200KG/1000KG/Barrel
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Desitin Zinc Oxide
Brand: China Origin: Made in China Product form: White powder Product grade: industrial grade Product specifications: 25KG/BAG
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Liquid Ammonia Fertilizer
Brand: China Origin: Made in China Product form: Colorless transparent liquid Product grade: industrial grade Product specifications: 200kg/1000kg
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Sodium Silicate
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What is Inorganic Compounds

In chemistry, an inorganic compound is typically a chemical compound that lacks carbon–hydrogen bonds⁠—that is, a compound that is not an organic compound. All allotropes (structurally different pure forms of an element) and some simple carbon compounds are often considered inorganic. Examples include the allotropes of carbon (graphite, diamond, buckminsterfullerene, graphene, etc.), carbon monoxide CO, carbon dioxide CO2, carbides, and salts of inorganic anions such as carbonates, cyanides, cyanates, thiocyanates, isothiocyanates, phosphates, sulphates, chlorates, etc.

Features of Inorganic Compounds

Electrical Conductivity

Inorganic compounds are composed of elements held together by ionic, metallic and covalent bonds and have the ability to conduct electricity in the presence of mobile ions that can carry an electric current, especially ionic compounds in the molten state or in aqueous solutions.

Thermal Stability

Inorganic elements produce a wide range of geometries and atomic arrangements, have higher boiling and melting points due to stronger bonding and complex structures, and can withstand high temperatures without decomposing or changing their chemical properties.

Easy to Catalyze

Some inorganic compounds, such as transition metal complexes, act as catalysts in chemical reactions. They can facilitate the reaction process without being consumed in the reaction.

Multiple Applications

Inorganic compounds have many industrial applications such as sulfuric acid for the production of fertilizers, hydrochloric acid for metal cleaning and pickling, sodium hydroxide for soap and detergent manufacturing, silicon (Si) and gallium arsenide (GaAs) for the production of computer chips and Electronic equipment.

Application of Inorganic Compounds

Given that inorganic compounds have so many widespread uses — chemical catalysts, paint, pesticides, jewelry, medicine, fuel, and much more — they are used in a huge number of industries.

Environmental Science
Contamination is an ever-present threat to the natural world. Scientists are constantly needed to explore the effects of chemicals and additives to the environment. This includes studies of chemistry in the atmosphere, in water, and in the soil. Often, inorganic scientists must discern what chemicals are naturally present in an environment before contamination.

Microchips
Silicon and other inorganic compounds form the basis for electronic circuitry, and with the exponentially increasing role of technology in today's world, this requirement is growing stronger. Inorganic chemists are needed for the process of infusing trace elements into thin surfaces of semiconductors, as well as sensors for medical devices.
This type of work is high-precision and is very rewarding for those who enjoy detail-oriented work.

Plastics and Fibers
This is a massive field with a huge number of manufacturers. Fibers can include textiles, microfibers, polymers, paper, carbon fiber, polyethylene, and more. Plastics comprise everything from consumer electronics to spacecraft.

Paints and Pigments
Most materials are treated with paint, pigments, or surface coatings. Inorganic pigments are typically made from metallic oxides or salts. These are used for giving color to plastics, fabrics, food, paint, and many other materials.

Mining
Essentially every material that isn't agriculturally or scientifically produced has to be extracted from the earth, like iron ore, uranium, limestone, oil, or natural gas, mining.

Benefits of Using Inorganic Compounds Fertilizers

Works Immediately
Inorganic fertilizers are usually given as a “rescue treatment” to plants that are malnourished, unhealthy or even dying. Inorganic fertilizers are appropriate in this situation because the nutrients needed by the plants are readily available. In comparison, using an organic fertilizer would mean that the plant has to wait until the components of the organic fertilizer have been broken down first into its primary nutrients. By then, the plant could be dead already.

Contains all Necessary Nutrients
Inorganic fertilizers are designed to give plants all the nutrients-Nitrogen, Phosphorous and Potassium that they need in appropriate proportions and amounts. Hence, plants do not get more of one can of nutrient over the other. Instead it has a balance of all the nutrients it needs and are readily available at a given time. Adding inorganic fertilizers into the soil to be planted makes the soil ideal for planting as it is already enriched with nutrients.

Affordable
You do not have to spend much on buying an inorganic fertilizer because it is relatively cheap. Of course, it is not as cost-effective when compared to using compost. Yet, for the convenience that it gives you when it comes to caring for your plants, an inorganic fertilizer is a very good deal already.

Convenient to Use
It takes awhile to make your own organic fertilizer. Though the process is relatively easy to do, still you need to delegate enough time to do the task and wait for the decomposition part to take place. It takes awhile. With an inorganic fertilizer, you save a lot of time and effort. Inorganic fertilizers are quite cheap and even easier to use and prepare. They are available at almost every gardening store.

Types of Inorganic Compounds

In general, there are four groups of inorganic compound types. They are divided into bases, acids, salts, and water. Note that these are the broadest categories of inorganic compounds. There are also loads of substances, including monatomic ones, that fall under the category of inorganic.

Bases

Bases are complex, involving metal atoms that have bonded with a number of hydroxyl groups. Bases have a pH above 7 . When they dissolve in water, the solution is referred to as "alkaline," and they can be used to neutralize acids. In reacting with acids, the byproducts are salt and water. Their dissociation in water creates two separate ions: generally a metal cation such as NH4+ and an anion such as OH–. Some examples are sodium hydroxide and copper oxide.

Acids

These consist of an atom of hydrogen and an acid radical. Acids have a pH lower than 7. They can also form with oxygen instead of hydrogen, a compound known as an oxoacid. Some examples of oxoacids are HNO3 and H2SO3, known respectively as nitric and sulfurous acid. Some examples of regular acids are HCl and HF, known respectivelyas hydrochloric and hydrofluoric acid.

Salts

Salts are made of a residual of acid plus a metal. They can be divided into six different classes: medium, acid, basic, double, mixed, and complex. Medium salts only dissociate into a metal cation and an acid radical anion. Acid salts yield the same plus a hydrogen cation. Basic salts dissociate into cations of metal and anions of both hydroxyl and acid radicals. Double salts dissociate into two cations and one anion, while mixed salts yield one cation and two anions. Complex salts yield complex results in solution.

Water

The most abundant compound on earth is an inorganic one. Water is beautifully strange, to the point of being a scientific anomaly — it expands instead of contracts when it freezes, it can stay liquid below freezing and then "supercool" when disturbed, and it has five phases as a liquid and 14 phases as a solid. There are some strange quantum mechanical properties of water as well, which scientists are continuously seeking to better understand.

Differences Between Organic and Inorganic Substances

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The easiest way to describe the difference between inorganic chemicals and organic chemicals is that organic chemistry covers compounds that are based on carbon and hydrogen combinations, and may or may not contain oxygen. Inorganic chemistry deals with all the other parts of the periodic table. Though an inorganic compound may contain either hydrogen or carbon, containing both generally makes it organic. Chemistry, much like music and astronomy, is riddled with peculiar historical nomenclature. Such is the case with the division between organic and inorganic substances, for which there is no comprehensive rule.
The reason this distinction is so important to make is that organic chemistry deals with such a broad range of compounds, despite the fact that carbon is but a single atom. Carbon's outer shell has four electrons, but it acts such a way that it "wants" eight in its 'valence'. This gives it the ability to form multiple iterations of double or triple bonds, or as many as four single bonds. In the atomic world, this makes it extremely versatile. As a result, there are over nine million known organic compounds.
The terms "organic" and "inorganic" can conjure up images of living versus nonliving things. Interestingly, organic and inorganic chemistry once were divided by this distinction — however, this is no longer true. While organic compounds are responsible for life, many are not involved with living organisms. Additionally, many inorganic compounds are crucial to life. For example, organisms cannot live without water, salt, acids, bases, vitamins, minerals, and other inorganic compounds at work within our bodies. Carbon dioxide is an inorganic compound released by the body, despite its obvious carbonic composition.
Inorganic chemistry differs from organic chemistry in one especially fundamental way: It deals with far fewer compounds. Inorganic chemistry covers roughly half a million known compounds. However, these substances are so vital to our existence that the field is of equal importance.

Factors to Consider When Choose Inorganic Compounds

Basic vs. Specialty Chemicals
It’s important to understand the difference between a chemical supplier that focuses on basic inorganic chemicals and one whose primary consideration is that of specialty chemicals. Basic inorganic chemicals are generally only one or two steps removed from the original substance; they’re produced in large volumes using continuous processes. Conversely, specialty chemical production is a more niche, more nuanced discipline. Specialty chemicals are typically derived from intermediates as opposed to raw materials, having gone through several synthesis steps prior to final manipulation.

Manufacturing Inorganic Chemicals
Once raw materials have been obtained, there are dozens of different ways they can be used to manufacture inorganic compounds. A few of the most common methods for chemical production include liquefaction, fractional distillation, catalytic conversion, and calcination. Ideally, a chemical partner will have one or more chemists in-house to provide constant feedback to manufacturers regarding scope and scalability of their request. On-staff chemists streamline the process of testing and producing a customized chemical compound.

Initial Supply Matters
Because of the way specialty chemicals are produced, it’s imperative for specialty chemical providers to ensure the validity of their front-channel suppliers. Manufacturing requires particularly accurate measures of chemical purity which is why so many manufacturers choose chemical suppliers based on their commitment to quality control. Additional safeguards such as ISO 9001 compliance, internal auditing, and responsive customer service can add to a manufacturer’s confidence in the product they’ve sourced.

Frequently Asked Questions of Inorganic Compounds

Q: What is an inorganic compound simple definition?

A: An inorganic compound is a substance that does not contain both carbon and hydrogen. A great many inorganic compounds do contain hydrogen atoms, such as water (H2O) and the hydrochloric acid (HCl) produced by your stomach.

Q: What are the 4 main examples of inorganic compounds?

A: In general, there are four groups of inorganic compound types. They are divided into bases, acids, salts, and water. Note that these are the broadest categories of inorganic compounds.

Q: What is inorganic and organic compound?

A: In chemistry there are two groups of compounds, and they are typically studied separately. Organic compounds are generally compounds that include carbon atoms, and typically hydrogen-carbon bonds. Inorganic compounds, on the other hand, generally don't include carbon atoms.

Q: Why are compounds inorganic?

A: Inorganic compounds are chemical substances that do not have carbon-hydrogen bonds; they are primarily composed of elements other than carbon, such as metals, non-metals, and transition elements. In nature, inorganic compounds occur as minerals; they can even be found in a pure form.

Q: What are examples of inorganic compounds?

A: Inorganic substances are a group of chemicals that contain no carbon. Inorganic compounds are compounds that do not contain both carbon and hydrogen. They often have high melting points and different levels of electrical conductivity. Here are some examples of inorganic compounds: ammonia, hydrogen sulfide, all metals, and most elements (such as calcium).

Q: How do you explain inorganic chemistry?

A: Thus, inorganic chemistry is the subcategory of chemistry concerned with the properties and reactions of inorganic compounds, which includes all chemical compounds without the chains or rings of carbon atoms that fall into the subcategory of organic compounds.

Q: How do you tell if a compound is organic or inorganic?

A: Organic and inorganic compounds are said to be one of the large class of members. The primary difference that lies between these organic compounds and inorganic compounds is that organic compounds always have a carbon atom, while most of the inorganic compounds do not contain a carbon atom in them.

Q: What is a major difference between inorganic and organic compounds?

A: Organic compounds and inorganic compounds form the basis of chemistry. The primary difference between organic vs. inorganic compounds is that organic compounds always contain carbon while most inorganic compounds do not contain carbon. Also, nearly all organic compounds contain carbon-hydrogen or C-H bonds.

Q: Can inorganic become organic?

A: Just as life requires energy (to do anything and everything!), converting inorganic molecules into organic molecules requires an input of free energy. As we have seen, most living things today get free energy by oxidizing nutrients or directly from the sun by photosynthesis.

Q: Is the human body organic or inorganic?

A: All living organisms contain carbon-based compounds, making them organic. Our bodies are composed mostly of water, H2O, and it is necessary for us to survive. However, water is an example of an inorganic compound because it does not contain carbon and it was not formed by a living organis.

Q: What are common inorganic?

A: Examples include the allotropes of carbon (graphite, diamond, buckminsterfullerene, graphene, etc.), carbon monoxide CO, carbon dioxide CO 2, carbides, and salts of inorganic anions such as carbonates, cyanides, cyanates, thiocyanates, isothiocyanates, phosphates, sulphates, chlorates, etc.

Q: Is Vinegar organic or inorganic?

A: Organic. It is organic. It is made up of acetic acid which is organic. But the acetic acid makes up only 5% of vinegar and the rest is water which is inorganic . Hence vinegar is organic.

Q: Is salt organic or inorganic compound?

A: To highlight it, table salt or food salt that humans consume are inorganic compounds. Salt is a mineral, not a product of agriculture, and therefore cannot be certified organic. Something could be labeled an organic salt but that would mean that there were other ingredients in the product that were certified organic, but not the salt itself.

Q: Is inorganic chemistry harder than organic?

A: Here are some of the reasons why organic chemistry is considered to be more difficult than inorganic chemistry: Organic compounds are more complex. Organic compounds are made up of carbon, hydrogen, and oxygen, but they can also contain other elements, such as nitrogen, sulfur, and phosphorus.

Q: Why is water an inorganic compound?

A: Water H2O : Water is a compound composed of Hydrogen and Oxygen atoms connected by covalent bonds. Inorganic substances won't contain a Carbon atom, whereas organic substances contain several. Thus, water is an inorganic compound because it does not contain carbon and it was not formed by a living organism.

Q: What are the inorganic compounds in life?

A: Inorganic compounds are important in the body and responsible for many simple functions. The major inorganic compounds are water (H2O), bimolecular oxygen (O2), carbon dioxide (CO2), and some acids, bases, and salts. The body is composed of 60–75% water.

Q: What can we do in inorganic compounds?

A: Inorganic compounds are used as catalysts, pigments, coatings, surfactants, medicines, fuels, and more. They often have high melting points and specific high or low electrical conductivity properties, which make them useful for specific purposes. For example: Ammonia is a nitrogen source in fertilizer.

Q: What do inorganic compounds do in the body?

A: Many substances dissolve in water and all the chemical reactions that take place in the body do so when dissolved in water. Other inorganic molecules help keep the acid/base balance ( pH) and concentration of the blood and other body fluids stable (see Chapter 8).

Q: How are inorganic compounds made?

A: Inorganic compounds are chemical substances that are made up of atoms connected by ionic bonds, and are typically not of biological origin. They are made up of elements other than carbon, such as metals, non-metals, and transition elements. Inorganic compounds generally have ionic bonds, lack carbon-hydrogen bonds, and rarely, if ever, contain any carbon atoms.

Q: Are vitamins organic or inorganic?

A: Organic substances. Vitamins are organic substances, which means they're made by plants or animals, because they contain carbon as part of their structures. Minerals are inorganic elements that come from soil and water, and are absorbed by plants or eaten by animals.

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