Silica Gel Chromatography Suppliers and Manufacturer
We are the suppliers and manufacturer of silica gel, chromatography and other industrial air and gas drying application; get free samples of silica gel beads & crystals.
Saturday, 21 July 2018
Thursday, 23 November 2017
WHAT IS MOLECULAR SIEVE? HOW TO USE MOLECULAR SIEVE?
Precept & various Applications:
A Molecular Seive is a texture with little gaps of exact and uniform size. Those openings are little adequate to dam immense atomic even as allowing little particle to sidestep. Molecular sieve has a very wide range of programs, may be used in below Mantion Application.
Types of Molecular Seives:
Regeneration:
1). Methods for regeneration of molecular sieve encompass stress alternate (as in oxygen concentrators), heating and purging with a service gas (as whilst utilized in ethanol dehydration), or heating beneath high vacuum.
2). Regeneration temperatures variety from one hundred seventy five?to 315?relying on molecular sieve kind. In assessment, silica gel can be regenerated by heating it in a normal oven to 120?(250?) for 120 Minutes.
3). However, a few styles of silica gel will “pop” while exposed to enough water. that is resulting
from breakage of the silica gel spheres when contacting the water.
A Molecular Seive is a texture with little gaps of exact and uniform size. Those openings are little adequate to dam immense atomic even as allowing little particle to sidestep. Molecular sieve has a very wide range of programs, may be used in below Mantion Application.
Molecular Seives |
- A Efficient Desiccant
- Selective Absorbent
- Catalyst
- Ion Ex-change and Many more.,
- Especially used in Vehicle
- Building Glass
- Medicines
- Paint
- Packaging and Different Fields.
Types of Molecular Seives:
Molecular Seive Beads |
- Molecular Sieve 3A
- Molecular Sieve 4A
- Molecular Sieve 5A
- Molecular Sieve 13X
- Insulating glass molecular sieve
- Air separation unique molecular sieve and so forth.
Molecular Seive 13X |
Regeneration:
1). Methods for regeneration of molecular sieve encompass stress alternate (as in oxygen concentrators), heating and purging with a service gas (as whilst utilized in ethanol dehydration), or heating beneath high vacuum.
2). Regeneration temperatures variety from one hundred seventy five?to 315?relying on molecular sieve kind. In assessment, silica gel can be regenerated by heating it in a normal oven to 120?(250?) for 120 Minutes.
3). However, a few styles of silica gel will “pop” while exposed to enough water. that is resulting
from breakage of the silica gel spheres when contacting the water.
Monday, 20 February 2017
Silica Gel Important for Preparative and Analytical Chromatography
Preparative Chromatography
Chromatography, as we all know, is the process of separating
different components of any given mixture, with the help of a vertical glass
column. It involves a stationary phase, usually Silica Gel, and a mobile phase,
both of which work in tandem to separate the compounds at different levels.
Chromatography can be divided into many categories. Some of the commonly used
ones are column, flash, preparative and analytical, to name a few.
In preparative chromatography, the components of the mixture
are separated for the purpose that they can be sent for further analysis. This
is the whole purpose of preparative chromatography, as the term “preparative”
itself suggests. Preparative chromatography is generally used for the
separation of smaller particles. It also finds use in separating two strands of
DNA, which are to be sent for further analysis.
Analytical Chromatography
Just like preparative chromatography, analytical
chromatography is also widely used. This
form of chromatography is known to be used when smaller amounts of material are
to be separated. Analytical Chromatography comes in handy when one needs to
measure the relative proportions of analytes in any given mixture. Most
companies prefer analytical chromatography over other forms of chromatography
as it is simple, fast and time saving. It also makes more economic sense to use
analytical chromatography. This form of chromatography can be used in health
care, pharmaceuticals, environmental monitoring and quality control tabs.
Silica Gel in Preparative and Analytical Chromatography
While both the processes are different, there is one thing
common to Preparative and Analytical Chromatography. It is the use of Silica
Gel as the stationary phase. As mentioned earlier, it is the stationary phase,
which attracts the different compounds of the mixture meant for separation. This
separation and differentiation depends on the acidity/alkaline nature of the
Silica Gel being used. Different components will react at different levels and
that is how the separation takes place.
While choosing the Silica Gel being used in both preparative
and analytical chromatography, it is highly important that only the top-quality
Silica Gel be used. If top-quality Silica Gel is not available, then it will
greatly hamper the separation and differentiation process.
This is where the role of recommended top-class Silica Gel
manufacturers like Sorbead India becomes crucial. We are one of the leading
manufacturers and suppliers of Silica Gel in the country. Companies can always
depend on us for top-quality and high functioning Silica Gel desiccants.
Monday, 17 October 2016
Why Silica Gel is the Preferred Adsorbent for Chromatography
Chromatography Adsorbents - An Introduction
The chromatography process consists of two phases - the stationary phase placed in the vertical column and the mobile phase, which is placed on top of the same column and then makes it way downward. As the mobile phase moves downwards, different constituents of the mixture will get separated at different levels, thus completing the chromatography process.
Adsorbents are very important to the chromatography process. They are basically molecular desiccants with high surface density and large surface area. Adsorbents are used in different types of chromatography for absorbing and thus separating, various components of any given mixture. The commonly used adsorbents include Silica Gel, Alumina, Carbon, Magnesium Oxide and different types of carbonates. Each adsorbent brings to the table its own unique characteristics and benefits.
Why Silica Gel Adsorbents are Important for Chromatography
Silica Gel is one of the most important adsorbents used as the stationary phase in the chromatography process. Among Silica Gel adsorbents, the porous variety is most preferred by the clients. Silica Gel desiccant is known to be an acidic adsorbent and therefore has less polar properties when compared to Activated Alumina. As Silica Gel desiccant is less polar, it will mostly adsorb all the basic compounds present in the mixture.
The particle size of the Silica Gel is what decides, which chromatography process it will be used for. The particle size is directly proportional to the surface area of the Silica Gel. More surface area translates into more water vapour molecules getting adsorbed. This can be explained with the help of few examples- In normal phase chromatography, non-polar components elute quicker because of the polarity of the Silica Gel adsorbents. In reverse phase chromatography, it is the polar components that elute first as hydrophobic groups get attached to the Silica gel.
There are many reasons as to why Silica Gel is preferred as the stationary phase. The first and main reason is its high polarity, which can attract water vapour or any other molecules in the shortest time possible. This makes economic sense for clients as they need not spend too much time and money in choosing the stationary phase adsorbent. The second is its large surface area, wherein more molecules can be adsorbed over more area. The third and final reason is its easy availability in the form of beads, balls and granules.
Thursday, 3 March 2016
Chromatography- Best Choice For Separating Fine Chemicals
Chromatography – An Introduction
Chromatography is a separation and purification technique mainly used to separate individual components of a mixture so that they can be separately analyzed and researched upon. Chromatography consists of a stationary or solid phase and a mobile or liquid phase. The most commonly used types of Chromatography are Column Chromatography, Thin-Layer Chromatography and Flash Chromatography. All these chromatography methods are designed to cater to different needs of various customers.
The main applications of Chromatography are in the separation of fine chemicals, differentiation and purification of antibiotics, purification of DNA samples and biomarkers. Read on to find out how chromatography makes the separation process of different fine chemicals a lot more easier.
Chromatography in Separation of Fine Chemicals
Chromatography is very useful in the separation of fine chemicals as this process easily helps segregate the different fine chemicals that make up any mixture. Often people find it very difficult to separate fine chemicals when they are present in small quantities. This is where the process of chromatography proves to be useful. It is the best method available in which small quantities of fine chemical mixture can be separated without any difficulty.
Another advantage of using Chromatography to separate fine chemicals is that it can be done in very less time. If one opts for this type of purification process, one can be guaranteed of accurate separation of components in the minimum time possible. This can be achieved with flash chromatography.
One can also make use of the chromatography process to separate fine chemicals, which are very similar in physical appearances and have an almost identical chemical composition. Separating such chemicals becomes very difficult and this is where the role of chromatography becomes important. These fine chemicals cannot be separated by the usual modes of separation.
The use of Silica Gel Column Chromatography and Flash Chromatography in the separation of fine chemicals has other uses also. It brings down the level of solid consumption, increases the production and purification rate and results in lesser dilution of the product streams. The movement of the mixture through the stationary phase and mobile phase will lead to accurate separation of the fine chemicals as they settle down at different levels based on their solubility.
Wednesday, 20 January 2016
Four Key Uses of Silica Gel Dehumidification
What is Dehumidification?
Dehumidification is a process by which excess moisture present in the air is removed. Many times air needs to be dehumidified because the presence of water vapour can cause damage to products, packed or otherwise. Dehumidification of the air can be done using three methods- condensation, adsorption and absorption.
In condensation, moisture is removed by drying the air below the dew point. Following this the water vapour present in the atmosphere is condensed and removed. In adsorption, the water vapour is adsorbed onto the surface of an adsorbent like Silica Gel or Aluminium Oxide. When the adsorbent takes in the moisture, it does not undergo any physical or internal changes. Similar to adsorption, absorption also absorbs the excess moisture in the air. However, in absorption the desiccant undergoes internal as well as external changes. Unlike adsorbents, these desiccants cannot be reused as they have undergone physical changes.
Silica Gel Dehumidification
Dehumidification using Silica Gel (SiO2) as an adsorbent is known as Silica Gel Dehumidification. In this process, the Silica Gel can adsorb moisture up to nearly 40% of its own weight. The specialty of Silica Gel is that it is highly porous and has a very large surface area. The adsorbent's openings are about 50-70% volume and hence the intake of moisture is quite high.
The major benefit of using Silica Gel as a dehumidifier is that it can reuse. Silica Gel can be regenerated by heating. Once heated, it will lose all the moisture adsorbed and is ready to be used once again. This is why the use of Silica Gel is said to be economical.
Four Major Uses of Silica Gel Dehumidification
There are many uses of Dehumidification with Silica Gel as an adsorbent. Four of the important ones are listed below:
1) Keep Storage Spaces Dry: Silica Gel dehumidification is very important in keeping storage spaces in houses and warehouses free from moisture. By doing this, goods stored in these spaces will remain unspoilt and have a longer shelf life.
2) Keep ammunition moisture-free: Dehumidifying using Silica Gel sachets help in keeping guns and other ammunitions free from the ill-effects of excess humidity.
3) Helps electronics function better: When kept alongside electronic equipment like television, computers, VCDs, DVDs, etc., Silica Gel improves their functioning. This is done by adsorbing vapour from the surroundings.
4) Protects outdoor gear: Silica Gel Dehumidifier keeps outdoor equipment like camping gear, fishing rods free of mold, bad odours and mildew. The adsorbent removes excess moisture, which is the main cause of all these problems.
Wednesday, 4 November 2015
Why Use Silica Gel Dehumidifier Desiccant?
Silica gel sachets are something we see in our daily lives. Whenever we purchase/get a packaged item, mostly electronics, they always contain silica gels. The main use of silica gel desiccant is to dehumidify, i.e, eliminate all the extra moisture present in the packing material of those products, which are sensitive to vapour. This entire process of absorption of extra moisture is known as Silica Gel Dehumidification and it is carried out by Silica Gel Dehumidifiers.
Under this process, silica gel dehumidifiers will absorb all the humidity present in the packing material of products. This ensures that the product remains fresh for more time and has a longer shelf-life. A major benefit of using the Silica Gel Dehumidifier is that it demonstrates when it is fully saturated. This dehumidification product can be used multiple times as it is easily regenerated by heating it upto 250* F.
Main Uses of Silica Gel Dehumidification - Listed below are the major benefits of using silica gel dehumidifier desiccant:
1)Takes away extra moisture from electronic devices: Whenever an electronic device like mobile phones falls into water, one should immediately remove the battery to aviod potential damage. Next, instead of shaking and wiping the device one should place it overnight in a cover filled with silica gel sachets. This method will work wonders and remove all the moisture from the device.
2)Safeguard firearms and ammunition from moisture: In places having high levels of humidity it is very easy for firearms and ammunitions to develop rust. So one should add silica gel dehumidifiers to their guns to protect against rust. The silica gel sachets must be changed on a regular basis for their proper functioning.
3)Keep storage bags moisture free: When added to zipper storage bags, the silica gel sachets keep the packed electronics and battery chargers free of moisture.
4)Protect photographs and files: People can preserve their precious photographs and important documents by keeping them in an airtight cover with silica gel sachets. This will remove extra moisture and preserve the documents.
In the market, the silica gel dehumidifiers are available in boxes or canisters of different sizes. Their size mainly depends on the area they have to keep moisture-free.
Pharmaceutical and consumer product industries make use of bulk silica gel dehumidifier desiccant to safeguard their merchandise from the ill-effects of excess moisture.
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