2019年6月30日星期日

The Weight Treatment Of Extraction Thimbles

The extraction thimbles should be treated before doing the experiments of gravimetric monitoring for particulate matter, asphalt fume, and other matters.
The fiber extraction thimbles contain a small number of flammable substances and Easy-to-dissolve ashing substances. The extraction thimbles will lose weight during the high-temperature sampling of smoke and dust. The data suggest that the weight of the extraction thimbles will lose about 5 mg when heated at 400℃ for one hour, which makes the monitoring results lower than the actual results.
Consequently, to avoid the errors, the extraction thimbles must be treated at high temperature before sampling when the temperature is not certain. The temperature of the flue gas generally does not exceed 400℃ in the actual monitoring, which means that as long as the extraction thimbles are heated at 500℃ for one hour, the weight loss treatment can meet the monitoring requirements.
And then select the qualified extraction thimbles, number the sample, put them into the oven and dry them at the prescribed temperature to constant weight. The extraction thimbles after the above operations can be used for sampling monitoring.
For smoke and dust sampling filtering, the extraction thimbles need to be dried at 105℃ to 110℃ for 2 hours at a constant temperature.

Introduction Of Glass Solvent Filter

Hawach glass solvent filter is made of high-quality borosilicate glass, which can be used to filter various aqueous solutions, organic substances, and corrosive liquids. The glass Solvent filter is available in one liter and two liters and consists of a triangular liquid collection bottle, a sand core filter head, a filter bowl, a retaining clip, a dust cover, a hose, and a hose connector.
The device is lined with microporous membranes for chemical analysis, hygienic testing, biopharmaceutical and pesticide, petroleum, environmental testing and other sample filtration to detect and remove particles and bacteria in the liquid. glass Solvent filters are a common device in chemical laboratories.
According to the needs of the operator, it can select different materials and different filtration pore size filter membranes to remove impurities, purification, and sterilization.
Glass solvent filter is designed for rapid filtration and degassing of solvents. It is suitable for filtration and degassing of the mobile phase in liquid chromatography. It plays a key role in extending the service life of the instrument and column and improving the detection accuracy. It has also been widely used in gravimetric analysis, microanalysis, colloid separation, and sterility experiments.
The glass Solvent filter can be used according to the needs of the operator, and the filter membranes of different materials and different pore sizes can be used to remove impurities, purification, and sterilization in the solvent. Filtration and degassing of mobile phases for liquid chromatography analysis play a key role in extending the life of the instrument and column and improving the accuracy of detection. In gravimetric analysis, microanalysis, colloid separation, and sterility experiments. It has also been widely used.

The Operating Tips Of Pipette

Hawach pipette is a precise instrument. It should be carefully used and stored to prevent damage and to avoid affecting its measuring range.
The precautions in using the pipette are as follows:
Set volume
1. When adjusting from large volume to small volume, the normal adjustment method is counter-clockwise rotation scale.
2. When adjusting from small volume to large volume, we can first adjust clockwise to the scale exceeding the set volume, and then back to the set volume, so as to ensure the best accuracy.
Assembly suction head
1. Single-channel pipette, the pipette end is inserted vertically into the suction head, slightly rotated left and right, and tightened.
2. It is not advisable to tighten the suction head by repeatedly impacting the pipette. This operation will result in loose parts of the pipette due to a strong impact, and in serious cases, the knob of adjusting the scale will be jammed.
3. Multichannel pipette, the first channel of the pipette is aligned with the first suction head, tilted insertion, shaking slightly before and after tightening, suction head inserted slightly more than O-ring can be.

Highlights And Test Data Demonstration Of SPE Column

There are many factors to select a product, but on the way back, the only two words lingering in my mind are “parameters” and “Quality assurance”. All that’s left is the word “Quality assurance”, which is getting bigger and bigger and more distinct and lingering – or, to put it more simply, choosing the right product and not going through the wringer. SPE column highlights and test data demonstration are as follows.
Impurity dissolution: because the materials used are all medical grade PP and PE, with strong corrosion resistance and low impurity content, the probability of impurity dissolution is low; Adsorbent: imported adsorbent, so it has excellent purification function.
Product quality test report: this part of the products basically have COA, which is the first direct proof of product quality. You can ask colleagues in the production department to ask for it according to the situation to provide it to customers to prove the quality of our products.
Test report of product application examples: the SPE column has been used in experiments in different fields with more test report data, which has been summarized in the product folder and used according to the specific situation. The following is the application example in the detection of agricultural residues in food.

Precautions During The Use Of RP-HPLC Columns

When storing the column, the column should be filled with acetonitrile or methanol, and the column joint should be tightened to prevent the solvent from evaporating and drying. It is absolutely forbidden to leave the buffer solution in the HPLC columns for an overnight or longer period of time.
During the use of reversed-phase high-performance liquid chromatography HPLC column, if the pressure rises, one may be that the sintered filter is clogged, then the filter should be replaced or taken out for cleaning; the other may be macromolecule In the column of the human column, the stigma is contaminated; if the efficiency of the column is reduced or the peak of the chromatogram is deformed, the stigma may collapse and the dead volume increases.
The HPLC columns are often washed with a strong solvent to remove impurities remaining in the column. When cleaning, the displacement of the mobile phase in the flow path system should be gradually transitioned with a solvent that is miscible. The volume of each mobile phase should be about 20 times the volume of the column, that is, 50-75 mL is required for routine analysis.

Introduction To Activated Carbon Filter Cartridge

As a core part of water cleaners, activated carbon filter cartridges are characterized by physical absorption, low cost, and no pollution and side effect. Compressed activated carbon type and bulk activated carbon type are optional.
Compressed activated carbon type
It is made of highly absorbable coal-based activated carbon and coconut shell-based activated carbons with food-grade adhesive by compression treatment. Both inside and outside are lined with filterable non-woven fabrics to prevent powdered carbon scaling. Both ends are provided with NBR gaskets to maintain the tightness of the filter cartridge.
Bulk activated carbon type
It is made of bulk activated carbon housed in a specially designed plastic shell whose ends are welded to covers of shell and are lined with filterable non-woven fabrics to prevent powdered carbon scaling. Covers of the shell are designed in different patterns for connection such as crimping, thread screwing, etc.
Replacement requirements
Although activated carbon is insoluble in water, and powdered carbon is unharmful to health, it is necessary to replace activated carbon filter cartridges regularly after a period of use, generally 3 months to 6 months up to 1 year.

A Brief Introduction Of Screw Thread Top Sample Vials

What called a good sample vial must have the following qualities: specific size, cleanliness and proper adsorption degree that meet the certification requirements. The sample vial with thread mouth is made of high-quality hydrolyzed glass of first-grade. The technical specifications of the screw thread top sample vial, such as the inner and outer diameters of the bottle mouth and the bottle body, the accuracy of the threaded mouth, are fully in line with international standards and strict quality inspection.
In the coming articles, we will talk about the advantages of the screw thread top sample vial. The raw material of the sample vials is normally PTFE and silicone rubber or ultra-pure silicone rubber, which ensures that the product is non-toxic. The unique white silica gel spacer is easier to penetrate, which is the protection of the sample vials’ needles.
And the higher purity of the spacer can minimize the miscellaneous peaks to most. The adhesive-free bonding technology ensures that the PTFE layer of the two materials has good chemical inertia, acid resistance, alkali resistance, high-temperature resistance, and adhesion resistance, while the silicone rubber or silicone rubber layer has excellent resilience, which not only ensures the sealing performance but also provides better protection for the needle of the sample vials.

Categories Of Syringe Filter In Hawach

According to the given principles of Hawach, there are three general sorts of syringe filter products specially designed for different customers' requirements.
With a high class, transparent color and imported membrane, the FILTSTAR is obviously distinguished with three standards, one of which is whether the filter has pre-filtration(for the PP or GF), the other is the sterilization method, and the rest depends on membrane materials(Active Carbon/ Nylon/ PTFE/ PTFE L/ PES/PVDF/ MCE/ CA/ GF/ PP).
This one is manufactured with lower classification, colored ring and domestic membranes. However, compared with the FILSTSR, it merely possesses non-sterile products and less membrane materials(Nylon/ PTFE/ PTFE L/ PES/PVDF ).
It is high classified, designed with transparent color and the same membrane as Millipore, but PUSTAR still has less materials in the membrane as Nylon, PTFE, PTFE-L L and PVDF are recorded.

Application Of Empty Flash Column

Knowledge of Empty Flash Column
Empty flash column is one type of flash column, which is used as a solid load cartridge for flash chromatography. It features in a variety of sizes and meets a variety of needs for specific purifications. The length of empty flash column is 115.1, 137.8, 188.2, 188.7, 173.3, 263.5, 146.6, 277.7, 218.5, 271.6. the surface pH is from 6.3 to 7.2, the weight is 4g, 12g, 25g, 40g, 60g, 80g, 100g, 120g, 220g, 330g, and the water content is 3.0-5.0%. Additionally, the column is of excellent pressure and corrosion resistance.
Installation and Operation Manual
The empty flash column provided by Hawach Scientific is simple to install, customers can assemble by their own, provided that the need for our engineers to guide the installation, please contact us immediately. The installation and construction procedure is as below: when empty flash column arrives, check if all accessory components are complete and in good condition, then assemble according to installation documents. All accessory components, such as screw cap, frits, tips, and O-ring, and end tips, should be mounted and connected properly.
If it will not be put into service, please repack it and put it in a proper place to protect it from contamination and damage.

2019年6月27日星期四

Characteristics And Applications Of MCE Grid Membrane Filter

Hawach scientific provide high-quality MCE Grid membrane filter and the products have been exporting to more than 120 countries and area.
MCE Grid membrane filter is a kind of mixed cellulose wafer film with mesh, which is mainly used to count the bacterial colony after culture, and it can be divided into two specifications: black background and white background. We can offer both continuous packing and independent packing diameter 47mm/50mm, pore size 0.22 um/0.45 um/0.8 um. Mainly used for environmental monitoring, microbial count, detection, bacterial detection, in beer, food, juice, milk, pharmaceutical and other areas of microbial testing achieved consistent praise.
The product features are most suitable for microbial interception and growth, and the microbial resurrection rate is 90%. The membrane has a grid line, which is easy to distinguish and count the colony and does not affect the colony growth.
Single piece aseptic packaging, direct use, save the sterilization time, avoid the secondary pollution in the operation; The combination of the diaphragm and grid lines with different colors is suitable for different microbial detection.
White background with black grid 0.45 um, detection of water bacteria, coliform bacteria, mainly used for e. Coli and bacterial colony count; Black background with white grid 0.45 um, mainly used for mold and yeast count detection.
Product USES aseptic filtration, air detection, particle detection, particle removal of ionized water microbiological analysis particle detection, particle removal, dairy microbiological, yeast, mold detection. Fluid quality analysis, particle collection, and analysis for use.

Different Methods Used To Remove Liquids In Different Situations

The first situation is for transferring regular liquids. Press the button to the first stop point. Put the dripper of the pipette below the liquid surface and then release the button slowly. Until the dripper of the pipette suctions the liquids, remove the dripper from the liquid surface and slant it on the wall of the reagent bottle to flow out the excess liquid.
Move the pipette to the sampling position and gently press the button to the first stop point. And then continue pressing the button down to the second stop point in order to drain out the liquid in the emitter.
The second situation is transferring the thick liquid and the foaming liquid. When operating with a small amount of liquid and changing the dripper repeatedly, press the button down to the second stop point, place the dripper of the pipette below the reagent surface, and then slowly release the button to suction the liquid.
After the dripper is filled with liquid, the dripper is withdrawn from the liquid surface and slanted on the wall of the reagent bottle to flow out the excess liquid. Move the pipette to the sampling position, and continue pressing the button down to the first stop point to drain out the preset liquid.

QuEChERS Advantages And Operations

Knowledge of QuEChERS
Quick, Easy, Cheap, Effective, Rugged, Safe are generally abbreviated to QuEChERS. It is a sample pretreatment method for agricultural product detection. It is used to absorb and remove impurity, and the operational principle is similar to high-performance liquid chromatography (HPLC) and solid phase extraction (SPE). QuEChERS provided by our company fall into five types, including QuEChERS Ceramic Homogenizers、QuEChERS D-SPE Kits、QuEChERS Dispersive Absorbents、QuEChERS Extraction Salts and QuEChERS Kits.
Advantage of QuEChERS
QuEChERS is of high recovery and accuracy, simple structure and low contamination. It is widely used to analyze and detect pesticide residues in food、medicine、soil and so on. Its simple structure and perfect after-sale service provide convenience for customers. Low cost and high quality make it become popular in the market. QuEcHERS provided by our company has different size centrifugal tube and Purification tube and different sorbent package And the comprehensive type of products can satisfy various customer requirements.
Operation of QuEChERS
The steps can be summarized as follows: sample crushing, solvent extraction, and separation, adsorbents addition, impurity removal, results in analysis. After testing, the residue should be properly disposed of, without resulting in environmental contamination. Keep in a dry, cool and well-ventilated place in an unused state.

Bottle-top Dispenser Operating Precautions

The bottle-top dispenser produced by our company is very ingenious and practical. It occurs a few breakdowns and is easy to maintain because of their simple mechanical structure. Besides, it has a durable and easy-to-clean surface.
Points for Attention in Operation
Firstly, the bottle-top dispenser should be firmly and tightly fixed on the reagent bottle through the screw mouth valve, so that the solution removal process occurs no accident and causes no harm. Secondly, when the piston needs moves, the process should be gentle and slow, so as not to reduce the precision of measurement and maintain stable performance. Thirdly, if the piston does not move smoothly in the process of liquid separation, it is better to stop operation and clean immediately. Lastly, the bottle-top dispenser should be cleaned in accordance with the operating instructions.
Quality Assurance
This product is noted for fine workmanship and excellent performance, it occurs few failures as long as the operation process conforms to the standard. Even if there is a breakdown, free repairs are available within the guarantee period, only if defects inherent in the design or production process. Faulty products can be repaired in the original factory or authorized service and maintenance center. Take care not to dismantle and repair faulty products without permission, or all losses should be borne by yourself.

Filter Cartridge Classification

The water filter cartridge is generally divided into MF (microfiltration), UF (ultrafiltration), NF (nanofiltration) and RO (reverse osmosis) and SF (sodium-ion exchanger filtration) for different purposes.
Materials
1.MF: PPF (5-25 micron); active carbon granule and bar (5 micron); KDF of copper and zinc particles; ceramic cartridge of silicate-based materials (0.1 micron);
2.UF: ultrafiltration membrane of polypropylene/ cellulose acetate fiber (0.01 micron);
3.NF: nanofiltration membrane of polypropylene/ cellulose acetate fiber (0.001 micron);
4.RO: reverse osmosis membrane of polyamide fiber (0.0001 micron);
5.SF: sodium-ion exchanger
Filtration Purpose
1.MF: iron scale, sand, large-size particles, colloidal substance, protein, toxic gas (chlorine), residual chlorine, odor, organic matter, and some bacteria;
2.UF: bacteria, virus, micro-cluster substance;
3.NF: some ionic-state substance and heavy metal;
4.RO: bacteria, virus, microorganism, thermonatrite, heavy metal, and ionic-state substance;
5.SF: calcium and magnesium ions.
Features
1.MF: vulnerable to blocking and secondary pollution; time and cost consuming in cleaning; undeveloped chemical process technology;
2.UF: useless for mineral substance and limescale; vulnerable to blocking;
3.NF, RO, and SF: mainly used in spacecraft, submarine and medical care

2019年6月26日星期三

Hawach Vacuum Filtration Introduction

Hawach vacuum filtration is made of transparent polymer material polystyrene (GPPS), which uses a vacuum pump to provide pressure difference for large-scale filtration of tissue culture fluid and other laboratory fluid solutions. The sample throughput can reach several liters, and the filtered sample It can be stored directly in a sterile collection bottle.
The vacuum filtration uses a vacuum pump to provide a pressure differential for bulk filtration of tissue culture fluids and other laboratory fluid solutions. Samples can be processed up to several liters and the filtered samples can be stored directly in sterile collection bottles. Hawach offers a wide range of vacuum filtration units in three main forms: full filtration/storage unit, top filter and receiving a bottle.
The vacuum filtration is a disposable filter consumable that replaces the solvent filter. It is aseptically packaged separately, and the filter membrane of the corresponding specification is welded inside. When it is used up, the trouble of cleaning and disinfection is saved, and a lot of labor is saved. The filter is made of PS material and is used with a diaphragm vacuum pump. It can be used to filter large-volume samples. The filtered sample can be directly stored in the collection box and screwed onto the lid.

Installation Instructions For Extraction Thimble

Extraction thimble is a device, which is often applied to the analysis of air and exhaust gas, used to absorb solid and semi-solid materials, or available in extracting a medium substance by adding different extractant.
It is made of high alpha cellulose which ensures excellent quality、high purity and good mechanical strength. It is suitable for Soxhlet-type, Tecator-type or similar devices which has a high standard in high fitting accuracy and superior retention ability. Besides, it has a variety of applications due to wide wall thicknesses in sizes.
Instructions for Installation
Extraction thimble should be thoroughly wiped before installation to prevent prolonged exposure to pollution. It is better to place in a clean, dry and good ventilation environment if the extraction thimble is in idle state.
Quality Guarantee
Extraction thimble provided by our company is manufactured under the strict quality management system. The pre-sale, in-sale and after-sale service system of products is complete. Quality guarantee measures are implemented. All kinds of maintenance and consultation services for users are timely in place and recorded and tracked, and the various functions of service for users are perfected.

The Role Of Filter Papers

The filter paper used in the analytical laboratory performs a strong absorption effect for liquids, which can separate the solution from the solid. The filter paper produced domestically could be divided into three types, including qualitative filter paper, and quantitative filter paper.
Qualitative Filter Paper
Qualitative filter papers generally have a large number of residual ash, which is only used for general qualitative analysis, sediment filtration or suspended solids in solution. However, it may not be used for mass analysis. Based on the speed of its filtration, the qualitative filter paper is classified as fast, medium and slow speed type with square and round shape. There are various sizes of it provided for selection.
Quantitative Filter Paper
The quantitative filter papers are applied for precise quantitative analysis. During its manufacturing process, the paper pulp is treated with hydrochloric acid and hydrofluoric acid in the first step. And then, it is washed with distilled water, which is supposed to remove most of the impurities in the paper fiber. Thus, there is only a tiny amount of residual ash contained after burning, which barely has an effect on the analysis results. The quantitative filter paper is only shaped in the round.

The Maintenance Of Bottle-top Dispenser

The specific steps are as follows:
1. Clean the glass cylinder.
2. Empty and unscrew the separator from the bottle, and lift the separator upward until the drain pipe leaves the liquid level but is still in the bottle-top dispenser.
3. Touch the inner wall of the bottle carefully to make the reagent return to the bottle.
4. Repeatedly press the piston to drain the residual liquid back into the bottle-top dispenser.
5. Place the separator on another bottle with a proper amount of purified water and rinse the separator.
6. Empty the bottle, rinse the bottle, fill it with purified water and repeat the steps.
7. Drain the separator and unscrew the piston seat (A).
8. Carefully remove the sediment from the glass cylinder wall with a rag, and clean the piston and cylinder with purified water.
9. Insert the piston vertically into the cylinder and tighten the piston seat.
10. Clean/replace drain/intake valves.
11. Unscrew the intake/discharge pipe.
12. Use installation tools to unscrew drain/intake valves, remove valves and sealing gaskets. Do not leave sealing gaskets in valves.
13. Rinse drain and inlet valves in purified water and clean them with a soft brush.

The Maintenance Of Bottle-top Dispenser

2019年6月25日星期二

Influencing Factor of Reversed-Phase Chromatography

In reversed-phase chromatography, the stationary phase is a non-polar bonded phase, such as octadecylsilane (C18, ODS), octyl (C8) bonded silica; mobile phase water as the base solvent, adding a certain amount of water mixed Dissolved polar regulator
A weakly polar bonded phase, a bonded phase such as an ether group and a dihydroxy group, used for reversed phase or normal phase chromatography.
Influencing factor
1. Molecular structure of solute (polarity)
The weaker the polarity, the stronger the hydrophobicity, and the larger k, the larger the tR.
The more the carbon number of the homolog, the weaker the polarity, and the larger the k;
The introduction of a polar substituent reduces the hydrophobicity and the k value becomes smaller.
2. stationary phase
The hydrophobicity of the bonded alkyl group increases as the carbon chain is extended, and the k of the solute also increases.
The greater the concentration of the alkyl group bonded to the surface of the silica gel, the larger the k of the solute.
3. Mobile phase
The stronger the polarity, the weaker the elution ability, and the larger the k of the solute
Solvent type: water is a weak solvent, alcohol is a strong solvent
Solvent ratio: the proportion of water increases, causing k to increase
Addition of salt: increase the k of the neutral solute

QuEChERS Affects The Matrix Of Added Recovery

The reason for the QuEChERS matrix effect in the liquid state is generally considered to be due to the non-volatile components in the matrix and the substance to be tested, which competes in the ionization process.
The matrix effect in gas phase temperament is generally attributed to the decomposition of the thermally unstable target due to matrix involvement during transport of the target through the hot inlet to the column; or because the matrix shields the active site of the inlet Thus, the polar target is reduced by the active site.
Then, for foods with more complex ingredients, the matrix that affects the recovery rate includes lipids, proteins, and pigments, sugars, organic acids, and salts.
Remove matrix
The amino functional group of the PSA adsorbent can react with some acidic groups to remove polar organic acids, as well as some sugars and lipids. C18EC is a porous adsorbent that can be used for non-polar physical adsorption. Removal of lipids and sterols; GCB (graphitized carbon) has a good adsorption effect on chlorophyll and its polar small interfering substances. It is important to emphasize that GCB is very easy to adsorb the target of planar structure; It is a new type of polymer with special selectivity for fat.

A Brief Introduction Of Capsule Filter

The capsule filter is small in size and mainly used in purification and filtration of chemicals, pharmaceuticals, microelectronic reagents, etc. The filter medium is placed in the interior of the capsule filter in the form of folds, which enlarges the filtering area and ensures the fast flow rate. The shell of the capsule filter is made of polypropylene material, by which the capsule filter can achieve excellent chemical stability and durability of application.
The capsule filter has many aspects of characteristics. The capsule filter can be applied in the purification and often used to purify different chemical reagents and pharmaceutical reagents, or the high additive liquids, low flow rate and filtration of rare metal solvents.
It can also be applied in the filtration, such as the filtration of highly corrosive solvents and gas filtration or the filtration applications in pharmaceutical, chemical, and biological industries. The filter media of the capsule filter can be Nylon, PES, PP, PTFE, PVDF or MCE. And generally, the capsule filter is suitable for different apertures.
The use of the capsule filter covers the pharmaceutical industry, chemical industry, automotive Industry, and Laboratory filtration.

Flash Column At A Glance

As a quick and easy way to separate complex mixtures of compounds, flash column chromatography is recommended as a specialized chromatography technique in the lab. As we know that it uses compressed gas or a pump to push the solvent through the column. Compared to the simple gravity flow, this technique is advanced as it allows for faster flow rates of the solvent. It not only helps provide better separation but also cuts down the amount of time required to run a column.
When you use flash column chromatography for your applications, you must pay attention to the usage of finer particle size for the stationary phase, such as silica gel.
We offer a full line of flash chromatography products designed for separation and purification of various synthetic and natural-occurring compounds. The column cartridge made from medical grade virgin PP material and PE frits, with low fines. and guaranteed leak-free. our Columns are highly compatible with all flash chromatography system, and always available in prepacked and empty flash columns.

2019年6月24日星期一

Hawach SCX/MCX Cartridge

Hawach SPE Cartridges are made of medical grade PP and forming in one time. Frits are made of UHMW-PE. There is a variety of models to choose, such as Normal Phase Cartridge, Reversed Phase Cartridge, Ion Exchanges Cartridge, Mixed Mode Cartridges and so on. Here, We would like to introduce two kinds of Ion Exchanges Cartridge, SCX cartridges and MCX cartridges:
SCX cartridges: SCX is a benzenesulfonate filler based on silica gel. Its negative sulphonic group has strong cation exchangeability. In addition, the benzene ring has certain hydrophobic retention. SCX can extract alkaline compounds with a positive charge.
Surface Area: 510 m2/g
Average Particle Size: 40-75μm
Average Pore Size: 70Å
MCX cartridges: MCX is a mixed strong cation exchange adsorbent obtained by bonding sulfonic groups on highly crosslinked PS/DVB surface. It has dual retention properties of reverse phase and strong cation exchange and has good retention capacity for alkaline substances.
Surface Area: 600 m2/g
Average Particle Size: 40μm
Average Pore Size: 60Å
The above Ion Exchange SPE cartridge can be used of the Streptomycin extraction, Alkaline Substance, and others.

Chemical Properties of C18 HPLC Columns

Chemical properties of the chromatographic column could affect the performance of the C18 HPLC column.
Performance factors of C18 HPLC columns: bonding type
Single tooth bonding can improve the mass transfer rate and accelerate column balance. Double tooth bonding can increase the stability of the column and increase the sample load.
Performance factors of C18 HPLC columns: carbon coverage
High carbon coverage improves resolution, but analysis takes longer. Low carbon coverage reduces running time.
Performance factors of C18 HPLC columns: sealing the end
The sealing end can reduce the peak dragging phenomenon caused by the reaction between the components to be measured and the residual acid silicon hydroxyl on the surface of the silica gel.
Use of C18 HPLC columns
Before use, it is better to test the performance of the column and save the results as a reference for future evaluation of column performance changes. The performance of the column may vary depending on the sample, mobile phase, column temperature, etc.
Since the column efficiency is a function of the mobile phase velocity in the column, different column efficiency can be obtained by using different velocity.

Chemical Properties of C18 HPLC Columns

Chemical properties of the chromatographic column could affect the performance of the C18 HPLC column.
Performance factors of C18 HPLC columns: bonding type
Single tooth bonding can improve the mass transfer rate and accelerate column balance. Double tooth bonding can increase the stability of the column and increase the sample load.
Performance factors of C18 HPLC columns: carbon coverage
High carbon coverage improves resolution, but analysis takes longer. Low carbon coverage reduces running time.
Performance factors of C18 HPLC columns: sealing the end
The sealing end can reduce the peak dragging phenomenon caused by the reaction between the components to be measured and the residual acid silicon hydroxyl on the surface of the silica gel.
Use of C18 HPLC columns
Before use, it is better to test the performance of the column and save the results as a reference for future evaluation of column performance changes. The performance of the column may vary depending on the sample, mobile phase, column temperature, etc.
Since the column efficiency is a function of the mobile phase velocity in the column, different column efficiency can be obtained by using different velocity.

GF Membrane Filter

Hawach Scientific provide Glass fiber filter membrane, with a binder and without binder both available. Here we introduce the without binder type.
Pore size : 0.7um /1.2um
Diamter : 13/25/47/50/60/90/100/106/120/142/150/200/250mm.
Glass fiber filter membrane is chemically inert, without binder, made of 100% borosilicate glass fiber. With the capillarity fiber structure, can absorb more water than the same cellulose filter paper, the flow rate is fast, high-temperature resistance, strong ability to absorb pollution characteristics, and can filter fine particles. As an important part of fiberglass products, fiberglass is widely used, among which the application of the filter membrane is very close to our daily life. The fiber of the glass fiber filter membrane is very fine. It has high filterability, high dirt-bearing capacity, good hydrophobicity, and biological inertia.
Compared with other fiber materials and synthetic materials, glass fiber filter membrane has higher filtration efficiency and belongs to deep filtration. It is mainly used as a filter layer and directly added to the filter membrane. The glass fiber filter membrane is used for daily air pollution monitoring and special monitoring of solid pollutants, microorganisms, oil and acid mist in the air. Used for the collection of high-efficiency fine particles and the analysis of water pollution.Is the air dust collection, the accurate determination of the ideal supplies.
Can be used for membrane pre-filtration to prevent membrane blocking; Glass fiber filter membrane with the large surface area has excellent interception ability. Filters of different sizes have specific requirements for the diameter of the pre-filtration membrane. If the diameter is too large, its edge will extend under the sealing ring and cause leakage. When filtering more viscous and difficult to filter the liquid, it is usually used in the multi-layer filtration method, 2-3 layers of filter membrane with different pore sizes stacked, polyester separation layer added between the filter membrane for the convenience of liquid filtration, the top layer with glass fiber pre-filtration membrane.

Capsule Filter Overview

Composed of a filter medium encased in a plastic housing, the filter capsule is a kind of self-contained unit which can be connected in-line to a sample-delivery system, such as a submersible or peristaltic pump. The unit can generate sufficient positive or negative pressure to force water through the filter.
Filter capsule is designed for fast processing and final filtration of aqueous samples, and it’s good at providing efficient processing and enhanced throughput of difficult-to-filter solutions via an in-line installation. The filter capsule is required for most studies when your application is to filter samples for trace element analysis.
We guarantee that our products do not have any adhesives and other chemicals contained. The shell of the filter capsules are made of high-temperature polypropylene material, as well as the filter cartridges in the capsules are made of hot-melt welding with folded filter cartridges. Perfect for the small dosage of liquid and gas rapid filtration in the lab, you can find our filter capsules in a variety of specifications size and different types with different filter membrane and different pore size can be chosen.

Introduction of Crimp Sample Vial

The crimp sample vial is mainly applied in the clinical medicine and pharmaceutical industry. It could greatly avoid excessive evaporation of the samples by the unique crimping sealing method. It could completely work with the instruments of Agilent, Shimadzu, and etc.

Structure of Crimp Sample Vial

A whole piece of crimp sample vial contains three parts – crimp cap, septum, and crimp top vial. The crimp top sample vial shall highly match with its aluminum-made crimp cap and the PTFE or Silicone septum. The high-quality septum allows multiple injections. In conformance with the international standards, the design and manufacture of caps and septa shall ensure an excellent seal performance and high chemical compatibility.

Crimp Headspace Sample Vial

The headspace sample vial is used for the headspace analysis, especially for the volatile samples. Generally, there are 6ml, 10ml and 20ml volume vial for selection, with round or flat bottom type. Both types are suitable for sampling, but the round bottom one is more adaptable for storing samples since it could undertake higher pressures and withstand high temperature. The cap of the headspace sample vial must be properly and tightly pressed so that it will not affect the use of automatic instruments during the operation.

Flash Column Chromatography

Flash column chromatography is an alternative to long column chromatography developed in 1978.
This method aims to separate the components from the mixture and thereby purify it. It is built from existing long column chromatography techniques and is time-consuming and often unsatisfactory. Briefly, flash column chromatography allows the sample to pass through a gel-filled column that separates the sample.
Still and chromatographic founder Still and colleagues have been using medium- and high-column chromatography instead of long-column chromatography. They decided to combine the two to overcome the shortcomings of long column chromatography and low recovery.
The gel originally used to fill the column was silica gel, which is still widely used. They use gas pressure to push the solvent through a silica gel column and compress the column. The sample is then applied and the sample is passed through the column using the same (may be different, but usually the same) solvent. The purified components or fractions are then collected and the entire process takes approximately 5 – 10 minutes. Usually, a small portion first appears and most of it elutes at the end. The collected fractions were subjected to original analysis by thin layer chromatography (TLC) plates.
Silica gel column chromatography has been widely used in organic chemistry since its inception. However, the guidelines are often loose, driven by personal experience, or not well translated when settings are changed. However, some things are still true. Increasing the sample size will result in a lower resolution. Compared to high-performance liquid chromatography (HPLC), the resolution of flash column chromatography is already moderate, but sufficient for adequate separation, so an increase in the number will only worsen the situation. Second, the optimum flow rate depends on the length and width of the column and the nature of the gel. This is due to the number of plates available, for example, longer and narrower columns will provide more theoretical plates, affecting the flow rate. Finally, the resolution is affected by the stationary phase. It provides better resolution if the stationary phase or the gel arranged on the column is more uniform and has a smaller particle size. The smaller the particle size, the larger the surface area and the higher the resolution.
Manipulating all of these factors to optimize component purity or recovery can be quite complicated because they interact, but have different effects when tested independently. For example, mobile phase selectivity has the greatest impact on resolution, but it depends on column capacity. This, in turn, is affected by the solvent chosen.
Therefore, you need to test or calculate the settings used in the flash column chromatography before starting any real experiments. If you have data from TLC, you can calculate the optimal settings without having to test any of the flash column settings. The low thin layer chromatography delay factor (Rf) provides better separation. Using such data, the amount of solvent required can be calculated because they are inversely proportional to each other and both are related to the column void volume (solvent in the column before sample loading).
In the original method, it is very important to prevent the column from drying out. However, a more user-friendly alternative has been developed since then, called dry column flash chromatography. This method has been adopted by first-time students while still producing better results comparable to analyzing TLC quality. The principle is the same, but the column contains dry silica gel. The powdered xerogel was filled into the column by suction, finally obtaining a uniform bed of about 1 cm for the solvent and the sample. The column was also eluted by aspiration and dried after each fraction.

2019年6月23日星期日

Selection and Maintenance of Syringe Filters

Syringe filters are available out-of-the-box, no need for membrane changes and cleaning, and allow easy purification or detoxification of various solutions, including cell and microbial media, reagents, and additives, protein solutions and buffers.

Maintenance of a syringe filter

1. Clean filter material regularly;
2. Ensure good sealing to prevent leakage;
3. Confirm no leakage in the frame;
4. Check and repair the electrical circuit regularly.

Features of a syringe filter

1. Beautiful and light in appearance;
2. High cleanliness;
3. A variety of specifications and packaging;
4. Excellent economy, low cost and good results;
5. Easy to use, precise and reliable.
There are several aspects to consider when choosing a syringe filter:
1. Quality.
The ability to remove as many bacteria as possible without introducing other substances, such as bacterial endotoxins or chemical precipitates.
2. Filter membrane.
There are many types of filter membranes used in a syringe filter, and we need to consider both chemical compatibility and filtration time when selecting them.
3. Specifications.
After determining the filter and filter membrane, it is relatively easy to select the specification of a syringe filters.

What are the HPLC Column Classifications?

The HPLC column generally consists of a column tube, a pressure cap, a ferrule (seal ring), a sieve plate (filter), a joint, a screw, and the like. The column is a column tube with a stationary phase for separating the mixture. It is mostly made of metal or glass. It has the shape of a straight tube, a coil, a U-tube, etc., and is widely used in many fields.
HPLC column classification
In general, depending on the nature of the sample, which LC method is used, and then select different types of columns. That is, different types of columns represent different chromatographic methods.
The difference between different types of HPLC columns is the difference in column structure, column packing, and column size.
HPLC columns are available in different sizes (length and inner diameter), sub-preparative, routine analytical and micro. The hardware of different types of columns is also different (including joints, columns, etc.), as well as radial pressurized columns and jacketed heating columns.
The size of different liquid chromatography methods can be selected according to requirements, and the common analysis is 3 to 30 cm long and the inner diameter is 4 to 8 mm. A column of 20 cm long and 4.6 mm inner diameter is commonly used. The preparation column has an inner diameter of generally 8 mm and a length of 25 cm. The microcolumn has an inner diameter of l to 3 mm and a length of 10 to 20 cm. The effect of different filler analyses may vary, due to differences in the production process. The same type of filler produced by the same manufacturer may vary from batch to batch, and this difference may start from the substrate (surface area, impurities, special treatment), as well as bonded chemicals (monochloro or trichlorosilane reactants). Fillers produced by different manufacturers will also vary greatly depending on the patented technology (pretreatment, bonding process, filling technology). Due to various differences, it can only be assumed that the columns of the same batch number have substantially the same properties.
Most column packing matrices use porous silica particles, usually spherical and amorphous, with different particle sizes, pore sizes and surface areas. Porous polymer microparticles are also suitable for reversed phase chromatography. The polymer column has a wide mobile phase range and the mobile phase pH can range from 1 to 13. The silica matrix pH can only be between 2.5 and 7. Obviously, the polymer column is better, but it is still dominated by silica-based columns. In principle, polymer columns can overcome some of the deficiencies of silica matrix columns, but a large number of experiments are needed to confirm the overall superiority of polymer matrix fillers.