2020年1月20日星期一

Knowledge And How To Select Syringe Filters

Syringe filter is separation equipment which can be combined with a injector to filter out the impurities from the sample of chemically turbid solution. Syringe filter generally consists of a plastic housing and a membrane. The body of syringe filter (plastic housing) is usually made of materials such as polypropylene and nylon; the filter membrane may be of PTFE, nylon or other treated products for specific purposes.
Types of Syringe Filter
Here the syringe filter is mainly divided into three series: FILSTAR, WINSTAR and PURSTAR. FILSTAR and PURSTAR are high-end products with transparent color. Among the 3 types, Filstar and Winstar are more commonly applied with active demands. Unlike the Filstar including both sterilization and non-sterilization types, Winstar only supports the non-sterilization syringe filters. Furthermore, Filstar is of high quality and variety, meeting the needs of research specialists; in comparison, Winstar is a low-end product which is suitable for price-sensitive customers.
Use of Syringe Filter
Syringe filters are normally used for chemical experiments. For example, prior to analysis by HPLC, we can remove particles from a sample via syringe filter. HPLC can be easily damaged and blocked by the impurity particles due to the small packing size and high pressure. Thus the sample and solvents need to be pre-filtered to remove particulate contaminants and protect the instrument, and then the syringe filter is going come in handy. Similarly, the syringe filters are also suitable for IC analysis.
Also, syringe filters are frequently used for the on-site manufacture of parenteral drugs and sterile eye drops, in order to remove microbiological contamination.
Syringe filters and syringes are used to filter chemically turbid solution samples. Most commonly used for chemical HPLC-MS / GC-MS analysis of liquid and gas dust removal, sterilization filtration, biological sample preparation, tissue culture media, microbial media, Decontamination filtration of buffer solutions, etc.

Introduction to the use of syringe filters membrane
1. Before inhaling the sample, first suck about 1ml of air into the syringe, which can minimize the liquid residue.
2. Inhale the sample into the syringe, invert the syringe and clear all the residue on the top
3. Connect the needle filter to the syringe and tighten it gently to ensure a good seal
4. Filter the sample in the syringe and inject it into the sample bottle, then follow the steps to maximize the recovery rate.
Remove the filter, draw air into the syringe, reconnect the filter, and push out any remaining samples
Syringe filters membrane precautions
Use a syringe with a volume of less than 10 ml with caution, as such syringe pressure is sufficient to burst the needle filter.
It is best to choose the filter membrane recommended in the operating procedures.
How To Select Syringe Filters?
As a membrane-based device used to provide you with cleaner sample extracts, syringe filters can remove interfering materials, fine particles, and microorganisms from small liquid samples.
Syringe filters can be figured out by two basic parts: the membrane and housing. When you select filters, you should ensure both parts are compatible with your desired application. You can tell syringe filter housings are matched or not by the composition and format, and membranes are matched to end applications or not by composition, filter diameter, and pore size as well.
The two most popular membrane pore sizes for medical applications in the labs are 0.45 μm and 0.2/0.22 μm. 0.45 μm membranes can be used for applications of general filtering and particle removing, and 0.2/0.22 μm membranes can be commonly used for solution sterilization.
Based on your application, Hawach provides disposable syringe filters which are commonly selected for fast and efficient filtration, material purification, or sterilization in the labs.For a wide range of samples and applications, you can always find Hawach’s high-quality sample filtration solutions in a variety of syringe filter sizes, membranes, and housings.
Knowledge And How To Select Syringe Filters

How To Select The FLASH Purification Column – Stationary Phase

The FLASH column is the heart of the FLASH purification system, like an engine in a car. If you want to do a good job, you must first sharpen the tools. Choosing the correct FLASH purification column is the most critical part of the whole purification process. And choosing the right FLASH purification column is like choosing the other half of the vast sea of people, tall fat thin, appearance, connotation quality all aspects to carefully consider. Today we’re going to talk about what the pure column is all about – the stationary phase.
The stationary phase, also known as fillers, is the core of the spectrum. To determine the stationary phase for FLASH purification column loading, three aspects of the stationary phase are determined in turn: matrix type, surface modification/bonding phase, and matrix parameters.
The substrate
Matrix is a basic material composed of a stationary phase. The common matrix materials are divided into three categories: inorganic materials, organic materials, and composite materials. Inorganic materials include silica gel, alumina, etc. Organic materials are mainly gel and other polymer materials; Composite materials usually refer to inorganic materials and organic materials through hybridization, coating, coating and other means of composite materials.
Silica gel is the most widely used matrix in FLASH purification. Silica gel for chromatography is a porous structure with high mechanical strength and thermal stability, excellent pore structure and specific surface area, and its surface contains a large number of active hydroxyl groups, which plays a very important role in the separation and purification of compounds in the positive phase purification system. At the same time, the surface of silica gel is easy to be modified to form other bonded stationary phases, and there are many kinds of stationary phases modified by silica gel matrix, and the separation and purification effect is much better than that of other matrices.
But silicon substrate with poor stability in alkaline conditions, at the same time, the existence of the hydroxyl groups of some material especially for alkaline substances likely to cause irreversible adsorption, moreover in some applied to the separation and purification of biomolecules samples when nonspecific adsorption on the samples or make samples, sample elution from the chromatogram peak deformation difference and sample recovery rate is reduced.
Alumina matrix has high mechanical strength, good chemical stability, unique selectivity for some compounds, and good complementarity for silica matrix. But the surface modification of alumina is difficult, so it is mostly used in the positive phase purification system and a small amount in the ion exchange system.
Organic matrix is mostly polymer gel materials (such as resin, polystyrene diethylene copolymer, etc.), compared with silica gel has better chemical stability (applicable to the range of pH value can be from 1 to 12), and the sample to be separated from the basic non-denature-reaction, is not easy to produce irreversible adsorption. After modification, it is widely used in the separation and purification of biomolecules such as protein and carbohydrate in ion-exchange chromatography, volume exclusion chromatography, and reversed-phase hydrophobic chromatography. However, compared with inorganic substrates such as silica gel, the mechanical strength of the stationary phase of organic substrates is relatively low, and the separation and purification effect is poor, which limits its application in purification.
The composite matrix is compatible with and neutralizes the advantages and disadvantages of the inorganic matrix and organic matrix, but generally, the corresponding fixed phase of the composite matrix is expensive, so it is seldom used in preparation and purification.
Modification/bonding phase
By modifying the matrix or bonding different groups, different separation types of stationary phases are formed, usually including positive phase, inverse phase, ion exchange, secant, chirality and so on.
A chromatographic pattern in which the polarity of the modified group on the matrix is greater than that of the mobile phase is called positive phase chromatography, and the separation is achieved by the distribution of the stationary phase and the mobile phase depending on the polarity of the sample. In this separation mode, the sample is eluted from the purification column in order of polarity from weak to strong.
Commonly used positive phase stationary phase includes: unmodified silica gel; Silica gel matrix fixed phase such as diol group, amino group, and cyano group; Alumina, etc. The normal phase silica gel stationary phase is mainly used in the preliminary purification of the synthesis of non-polar or medium polar intermediates. The conventional flow systems are n-hexane/ethyl acetate, dichloromethane/methanol, etc. Its advantages are simple purification, simple sample post-treatment; The disadvantage is that the separation performance is not high (compared with inverse-phase fixation), the reproducibility is poor, and the adsorbability is strong and even produces irreversible adsorption to some kind of material.
In addition, some polar groups (such as diol group, amino group, cyano group, etc.) bonded to the positive phase of the stationary phase is often used in the reverse phase condition, for the reverse phase of the stationary phase such as C18 to retain the strong polarity of the compound, can obtain a good separation and purification effect.
The fixed phase of alumina can be divided into three types: acidic, neutral and alkaline. Acidic alumina is generally pretreated with acidic solvents, with weak cationic properties, the surface is easier to retain neutral and negatively charged substances, can not be very good to retain positively charged substances, mainly used in the separation and purification of acidic pigments, aldehydes, acid compounds.
Alkaline alumina is usually pretreated with an alkaline solution, has anion characteristics and cation exchange function, has a strong adsorption effect on polar cation samples, and is mainly used in the separation and purification of alkaline substances such as alkaline pigments and alkaloids. Neutral alumina is not sensitive to the acidity and alkalinity of the sample, so it is mainly used in acid-base unstable compounds such as glycosides, aldehydes, and esters.
A chromatographic pattern in which the group modified on the matrix has a polarity less than that of the mobile phase is called reversed-phase chromatography, in which the sample is eluted in the reverse order of the positive phase: the sample is eluted in order of polarity from strong too if. The reverse-phase fixed phase is mainly the silica gel matrix bonded with different bonded phases, such as C18, C8, C4, C1, phenyl and so on. It is widely used in the purification and purification of natural products, peptides, proteins, and other samples, with excellent separation effect, good reproducibility, long service life, and other characteristics.
A chromatographic pattern of separation based on the Size of the molecular volume (hydrodynamic volume).The SEC of dimensional exclusion chromatography can be divided into GPC (gel permeation chromatography) and GFC (gel filtration chromatography). Currently, the main substrates of GPC have cross-linked PS(styrene-divinylbenzene polymer) and cross-linked PVAC (cross-linked polyvinyl acetate). Different substrates use different organic solvents (DMF, etc.) as the mobile phase. The main matrix of GFC is hydrophilic silica gel, cross-linked dextran, cross-linked polyacrylamide, etc. The mobile phase is mainly water, so GFC is more used in protein purification. The main disadvantage of the size exclusion mode is that the sample load is small and the flow rate is usually low, so the preparation efficiency is poor. The advantages of its simple separation mode and the high recovery rate are its preparation and purification.
Ion exchange chromatography (ion-exchange chromatography) is a separation model based on the interaction of ionic charges on the surface of sample molecules and ionic charges on the surface of chromatographic fillers. The surface of the stationary phase is positively charged, and the anionic exchange filler is reserved. The surface of the stationary phase is a negative charge, cationic reservation is called cation exchange filler, in addition, according to the strength of the ionic bonding state on the surface of the filler is divided into strong ion exchange filler and weak ion exchange filler.
The common surface groups of cation exchange fillers are a sulfonic acid group (strong cation exchange), phosphate group, carboxylic acid group, a phenolic hydroxyl group. The common surface groups of anion exchange packing are primary amine group, secondary amine group, tertiary amine group, quaternary amine group (strong anion exchange packing). However, the resin is usually used as the matrix for preparation and purification of ion-exchange fillers, while silica gel and non-porous gel are more commonly used in analysis due to the consideration of pressure and resolution.
The chiral stationary phase refers to the stationary phase of polysaccharide, cyclodextrin, protein and other derivatives bonded or coated on silica gel and another matrix, and chiral recognition and separation of chiral substances are carried out to achieve the purpose of separation and purification. Because the chiral stationary phase is very expensive, in order to protect the stationary phase as much as possible, the chemical purity of samples is generally required to be relatively high, and the samples are generally preliminarily purified to improve the chemical purity and remove impurities that are easy to damage or adsorb the stationary phase.
Matrix parameters
The matrix parameters include the shape, particle size, and pore size of the matrix, which are selected according to the specific requirements of purification.
Taking the most widely used silica gel matrix as an example, the silica gel matrix used in preparation and purification is usually divided into spherical and amorphous. Amorphous silica gel is cheap, is the first choice for the initial coarse and pure. Compared with amorphous silica gel, spherical silica gel has obvious advantages, with the following advantages: good particle uniformity, stable post-loading column bed is not easy to collapse, low multi-path diffusion effect, high column effect, good separation. However, it is slightly more expensive and is generally used in the purification stage.
Matrix particle size directly affects the flash column efficiency and separation efficiency, the smaller the particle size can reach the higher column efficiency, and choose size to specific separation of the samples, after all the preparation cost to consider, the smaller the particle size of the stationary phase, the more expensive price, in order to achieve the best flash Columns efficiency is usually the smaller the particle size selection of line velocity, the greater the back pressure is higher, so the equipment requirement is high also.
Generally, when the sample is coarse and pure, the fixed phase with large particles is usually selected, while when the sample has high added value and requires high purity and yield, the fixed phase with small particles is mostly selected. Therefore, the choice of fixed phase particle size should be considered from the aspects of cost, sample and purification equipment parameters.
Selection aperture of the porous stationary phase matrix mainly from the molecular volume of the sample to consider (Table 1 summarizes the molecular weight of sample, sample size and the relationship between the recommended aperture), aperture of stationary phase is usually more than three times the size of the sample molecules, to make the sample molecular effective access to the stationary phase hole for full contact with the separation effect. However, for the sample molecules of polypeptides, the pore size of the stationary phase need not meet the above rules due to their long-chain structure. At the same time, the pore size is also related to the specific surface area. If other parameters are the same, the smaller the pore size is, the larger the specific surface area will be, and the size of the specific surface area will affect the separation effect and the loading situation to a certain extent.
To sum up, in the sample preparation of FLASH and purification, the preparation of should according to actual needs, combined with properties of sample, the purity, and yield of the product requirements and the actual situation of equipment configuration and so on, from the matrix, the modified/bonded phase, the matrix parameters considering three aspects, required for final purification of the stationary phase.

Knowledge Of Headspace Vial

The sealing property of the headspace vial is better than that of the threaded vial, and the rubber or silica gel has good re-sealing after the puncture, so it is ideal to preserve the reagents. If some of the organic solvents in use will corrode the silicone or rubber bottle pad, the bottle pad with PTFE coating is required, if in use, the reagent is not used up once, but stay in the headspace vial part of the next reuse, then the sample will be volatilized, because the bottle pad with PTFE coating will lose the sealing after puncture.
Characteristic of Headspace Vial
Hawach uses PTFE, silicone rubber or ultrapure silica gel as raw material, the product is non-toxic. Unique white silicone spacer, easier to puncture, protect automatic sampler needle, higher purity, and greatly reduce miscellaneous peaks. The adhesive-free process ensures that the two kinds of materials have good chemical inertness, acid resistance, alkali resistance, high-temperature resistance and anti-adhesion, and the excellent resilience of silicone or silicon layer, which not only ensures the sealing property but also provides softer protection for the needle of the automatic sampler.
Specification of Headspace Vial
The Hawach headspace bottle with a diameter of 10 ml, 22.5ⅹ50 mm, 20 ml, 27.5ⅹ70 mm, which is currently the most commonly used gas-phase injection bottle on the market, and the threaded round-bottom bottle can be said to be an upgraded version of the clamp type, which ensures that it can achieve the original function of the clamp head empty bottle while being able to achieve the purpose of reuse. This sample bottle mating – species 1.3 mm soft gasket can be used as a sample bottle. Additionally, the sample bottle can withstand pressure within 1000 kpa.
The material of Headspace Vial
The material of Hawach Headspace Vials adopts low extractable Borosilicate glass as raw materials, which provides with low expansion rate, high corrosion resistance, good strength, superior hardness, extraordinary light transmittance, and excellent chemical stability. The lid is made of special metal steel, which can be magnetically adsorbed without being easily corroded and changed in shape, while the bottle is designed for the round bottom to have certain automatic injection equipment compatibility while having a flat bottom placement function.
Working Principle of Headspace Vial
The laboratory bottles designed for top space analysis is what we call headspace vials. The essence of this experiment is that the volatile sample is heated and volatilized to form gas in the space at the top of the sample bottle and then diffuse, and finally the top gas in the gas chromatographic bottle above the volatile sample enters the gas phase detection. It is often used to detect volatile substances such as flavor compounds, perfumes, and cosmetics in industrial analysis, gases of polymers and plastics, beverages and food.
Adaptation of Headspace Vial
When detecting high boiling points of volatile or semi-volatile mixtures, we need to heat to vaporize the material at the top. In this process, the material in the headspace vial can eventually be measured without touching the liquid in the sample bottle because its liquid (solid or solid-liquid coexistence) sample is in the bottom position. Headspace vial is most suitable for sample analysis of light component volatiles. This measurement technique can effectively analyze the gas in the top space of the liquid sample and be applied to the solid dispersion method.

2020年1月19日星期日

Characteristics Of Several Commonly Used Membrane Filters

1. Nylon
Features: good temperature resistance, can withstand 121°C saturation steam hot pressure disinfection for 30min, the highest operating temperature of 60°C, good chemical stability, can withstand dilute acid, dilute base, alcohol, ester, oil, hydrocarbons, halogenated hydrocarbons, and organic oxides and other organic and inorganic compounds.
USES: electronic, microelectronic, semiconductor industry water filtration, tissue medium filtration. Liquid medicine filtration, beverage filtration high purity chemicals filtration.Filtration of aqueous solution and organic mobile phase.
2. Polyvinylidene fluoride (PVDF) membrane
Features: high mechanical strength, high tensile strength, good heat resistance and chemical stability, low protein adsorption rate; It has strong negative electrostatic property and hydrophobicity. It has two forms: hydrophobic and hydrophilic. However, it could not tolerate c rice, DMSO, THF, DMF, dichloromethane, chloroform, etc.
Purpose: hydrophobic polyvinylidene chloride film is mainly used in gas and steam filtration, high-temperature liquid filtration;
Hydrophilic polyvinylidene chloride (PVDC) membrane is mainly used in tissue medium, additives and other sterilizing filtration solvent and chemical raw material filtration, reagent aseptic treatment, high-temperature liquid filtration.
3. Mixed cellulose ester (MCE)
Features: uniform pore size, high porosity, no medium shedding, thin texture, small resistance, fast filtration rate, minimal adsorption, low cost, but not resistant to organic solutions and strong acid, strong alkali solutions.
USES: the medical industry needs the hot pressing sterilization water injection, the large infusion filtration particle. The degerming of heat-sensitive drugs (such as insulin ATP, coenzyme a and other biochemical preparations), the analysis and determination of particles and insoluble oil in solution with 0.45-micron filter membrane, and the determination of water pollution index were applied to the research departments of somatic cell hybridization and the prediction of heterosis by complementary line particles.
4. Polypropylene (PPM)
Features: no adhesive, stable chemical properties, flexible, not easy to break, high-temperature resistance, can withstand autoclave.Non-toxic and tasteless, acid and alkali resistant.
Purpose: suitable for making all kinds of coarse and fine filters and folding filter elements.
Applicable to the beverage, medicine and other industries of the plate and frame press filter membrane.
Suitable for supporting and pretreatment of reverse osmosis membrane and ultrafiltration membrane.
Polypropylene film is non-toxic, can be widely used in medicine, chemical industry, food, beverage, and other fields; Hydrophobic, especially for gas filtration.
5. Polyethersulfone (PES)
Characteristics: the ether sulfone microporous filter membrane belongs to the hydrophilic filter membrane, which has the characteristics of high flow rate, low dissolution, good strength, no adsorption of protein and extract, no pollution to the sample.
Purpose: Protein has low adsorption rate and high drug compatibility, and is used in biochemical, testing, pharmaceutical and sterilizing devices.
6. Polytetrafluoroethylene (PTFE)
Features: the most extensive chemical compatibility, can withstand DMSO, THF, DMF, dichloromethane, chloroform, and other strong solvents.
Application: filtration of all organic solutions, especially of strong solvents that other membranes cannot tolerate.
Polypropylene film is non-toxic, can be widely used in medicine, chemical industry, food, beverage, and other fields; Hydrophobic, especially for gas filtration.

About The Reason And Solution Of The HPLC FAQs

1. Why does the retention time sometimes drift and sometimes change rapidly when analyzed by HPLC? How to solve it?
About drift
① The temperature control is not good. The solution is to use a constant temperature device to keep the HPLC column temperature constant.
② The mobile phase changes and the solution is to prevent the mobile phase from evaporating, reacting, etc.
③ The column is not well balanced, and the column needs to be equilibrated for a longer time.
About rapid change
① The flow rate changes. The solution is to reset the flow rate to keep it stable.
② There are air bubbles in the pump. The air bubbles can be expelled by exhaust operation.
③ The mobile phase is inappropriate. The solution is to change the mobile phase or make the mobile phase properly mixed in the control room.
2.Main reasons and solutions for insufficient HPLC sensitivity
① Insufficient sample size, the solution is to increase the sample size.
② The sample does not flow out of the column. The mobile phase or column can be changed depending on the chemistry of the sample.
③ The sample does not match the detector. Adjust wavelength or change detector based on sample chemistry.
④ Too much attenuation. Just adjust the attenuation.
⑤ The time constant of the detector is too large. The solution is to reduce the time parameter.
⑥ Detector’s pool window is polluted. The solution is to clean the pool windows.
⑦ There are air bubbles in the test cell. The solution is the exhaust.
⑧ Improper pressure measurement range of the recorder, just adjust the voltage range.
⑨ The mobile phase flow rate is not suitable, just adjust the flow rate.
⑩ The detector and recorder exceed the calibration curve. The solution is to check the recorder and detector and redo the calibration curve.
3. Why is the column pressure unstable when doing HPLC analysis? How to solve it?
① There is air in the pump. The solution is to clear the air in the pump and degas the solvent.
② The proportional valve is invalid, just replace the proportional valve.
③ The pump gasket is damaged, just replace the gasket.
④ The solution of air bubbles in the solvent is to degas the solvent and change the degassing method if necessary.
⑤ Check the system for leaks, find the leaks, and seal.
⑥ Gradient elution, pressure fluctuation is normal at this time.
4. The column pressure is too high during the HPLC column acceptance test. Why?
Excessive column pressure is the most common problem encountered by HPLC column users. There are many reasons for this, and it is often not a problem with the column itself. You can check the cause of the problem by following these steps:
① Remove the protection pre-column to see if the column pressure is still high, otherwise, it is a problem with the protection column. If the column pressure is still high, check again.
② Remove the chromatographic column from the instrument to see if the pressure drops, otherwise, the pipeline is blocked and needs to be cleaned. If the pressure drops, check again.
③ Connect the inlet and outlet of the column to the instrument in reverse and flush the column with 10 times the volume of the column. (Do not connect a detector at this time to prevent solid particles from entering the flow cell). At this time, if the column pressure still does not drop, check again. Only for used columns.
④ Replace the column inlet sieve plate. If the column pressure drops, it means that your solvent or sample contains particulate impurities. It is these impurities that will block the sieve plate and cause the pressure to rise. If the column pressure is still high, contact the manufacturer. In general, connecting an in-line filter between the injector and the guard column can avoid excessive column pressure.
5. What are the reasons for bubbles in the mobile phase?
① Bubbles are often formed in mobile phase solutions due to dissolved oxygen or air.
② The liquid path resistance is relatively large, and vacuum bubbles appear when the liquid is absorbed.
③ When the system starts to work, the air in the flow path cannot be exhausted.
④ Air was mixed during sample injection.
6. The amino column hurts the column when entering the acid sample. If the column efficiency is reduced and the peak shape is changed after using for a period of time, how to recover?
Flush the column with 5-10 times the column volume of 0.5-1.0% NH3 in acetonitrile-water (50:50) solution (after washing, wash the excess ammonia with an alkali-free mobile phase), and then proceed. When analyzing such acidic analytes, it is recommended to add a little ammonia such as 0.1% to the mobile phase.
About The Reason And Solution Of The HPLC FAQs

2020年1月18日星期六

How To Operate When The SPE Cartridge Activates The Adsorbent?

As we know, five steps required for solid phase extraction cartridge: sample preparation, activation or equilibration of the column, loading, rinsing and eluting the compound of interest. There is no uniform regulation for that the solid phase extraction cartridge should be activated, rinsed and eluted with what kind of solvent. Please refer to the national standard, pharmacopeia or proven method based on your analysis.
There are two purposes for the activation of the solid phase extraction cartridge. The first purpose is to infiltrate the packing so that the sample solution can flow through the solid phase extraction cartridge; the second aim is to clean the interference impurities and solvent residue on the SPE cartridge.
Solid-phase extraction (SPE) is usually used for the pretreatment of liquid samples, extraction of semi-volatile or non-volatile compounds, or removal of impurities in the sample that interfere with the separation analysis, and can also be used for pre-dissolution of the treatment. Solid-phase samples into solvents. SPE techniques are excellent for the extraction, concentration, and purification of analytes.
The solid-phase extraction cartridge is rinsed with a suitable solvent prior to sample extraction to keep the adsorbent moist and to adsorb the target compound or interfere with the compound. Different modes of SPE cartridge activation are different from solvents.
1. Reverse phase SPE
A weakly polar or non-polar adsorbent for reversed-phase solid-phase extraction is usually rinsed with a water-soluble organic solvent such as methanol and then rinsed with water or a buffer solution. It can also be rinsed with a strong solvent (such as hexane) prior to rinsing with methanol to eliminate impurities adsorbed on the adsorbent and its interference with the target compound.
2. Normal phase SPE
The polar adsorbent used in the normal phase SPE is usually rinsed with the organic solvent (sample matrix) in which the target compound is located.
3. Ion exchange SPE
The adsorbent used in ion exchange SPE can be rinsed with a sample solvent when used in a sample in a non-polar organic solvent; when it is used in a sample in a polar solvent, it can be rinsed with a water-soluble organic solvent. Thereafter, it is rinsed with an aqueous solution of an appropriate pH and an organic solvent and a salt.
The choice of SPE cartridges
The cartridges play an important role and there are many types of SPE cartridges. Choosing a suitable one will be the first task. In the specific experimental work, it is necessary to select a suitable packing according to the analysis object, detection means and laboratory conditions, and an SPE cartridge of suitable specifications. More importantly, we should consider the extraction capacity of the SPE cartridge for the analyte, the volume of the sample solution, the final volume of the solution after elution, and the total amount of analyte and interference in the sample solution. Generally, the total mass of the analyte and the interferent adsorbed by the adsorbent in the cartridge should not exceed 5% of the total mass of the adsorbate. The volume of the eluent is typically 2.5 times the volume of the bed of the extraction cartridge.
In order to keep the adsorbent in the SPE cartridge moist until it is added to the sample after activation, approximately 1ml of the solvent for the activation treatment should be maintained on the adsorbent after the activation treatment. If the above description cannot solve your problem, please feel free to call HAWACH +86-29-89284429 or send emails to info@hawach.com. We are here to help.

About HAWACH Extraction Kit And Purification Kit For QuEChERS

The QuEChERS method is a sample preparation technology based on solid-phase extraction and matrix solid-phase dispersion technology. It is suitable for the treatment of low-fat samples and can achieve ideal results for samples containing less than 15% fat. Because of its simple operation, low cost, and low organic solvent consumption, the QuEChERS method provides efficient and clean extraction of samples, making it suitable for MS detectors to analyze hundreds of pesticide residues.
QuEChERS is a pretreatment method for pesticide residue detection. It is a standard method for pesticide residue detection recognized by developed countries.
Hawach kit
The HAWACH extraction kit and purification kit is easy to use and provides fast sample preparation. Prepackaged dispersion and extraction kits, extract salts and ceramic homogenizers are ideal for applications such as food, pesticides, and mycotoxins. We also offer chemical standards for the most commonly used regulatory methods, including AOAC and EN.
Features
Buffered extract salts are suitable for relatively unstable pesticides.
Select the appropriate extraction salt type according to your analytical method: AOAC or EN
The ceramic homogenizer can break up the salt agglomeration, uniform sample extraction and improve the recovery of the sample extraction product in the extraction and dispersion steps.
Hawach products used in QuEChERS method
Hawach products are used in the QuEChERS method, including the extraction box, the purification box, and the combination of the two, bulk adsorbent and ceramic protons.
The extraction box includes a salt pack and a 50 ml centrifuge tube, which is to extract pesticide residues from plants and the like.

The purification box is directly packed in the centrifuge tube, including 2ml and 15ml specifications, which is to remove the impurities by the adsorption of the purification tube.
There is also a type, combination of the two-an extraction box + a purification box, with which customers can get a whole set of experiments.
The bulk adsorbent in the purification tube had the same function as the purification tube, the difference is that some customers may not need to install the adsorbent centrifuge tube and buy the adsorbent separately.
The ceramic homogenizer is contained in the extraction tube or the purification tube and acts evenly when shaking the sample and the solution.
Why Use HAWACH QuEChERS Products?
• Save valuable lab time, thus increasing lab production
• Best selection of QuEChERS products available
• Cleaning extracts in cleaning products
• Excellent inter-lot repeatability
• Magnesium sulfate contains no organic matter
• The unique HAWACH adsorbent removes chlorophyll from acetonitrile extract without losing the flat analyte
• Hawach offers adsorbents in bulk, dispersed, Quick QuEChERS or traditional cartridge form
• Expert QuEChERS technical support
• Customized products are available
• Hawach products reduce pollution: HAWACH products were evaluated on extracts of milk, honey and soybean and the efficacy of the clean-up were determined by GC/MS analysis. Comparisons of the extracts were made by counting the number of peaks above the threshold. Results proved that the HAWACH products provided superior clean-up, whose products are prepared under controlled manufacturing conditions so the potential for contamination is eliminated. These results, along with time and labor savings, prove that QuEChERS products from HAWACH are cleaner and more cost-effective.

General Criteria For Pipette Tips

In 1958, the German company Eppendorf invented the first single-channel fixed-range pipette. In 1968, the Finnish Lab system (Raybo) invented a multi-channel fixed-range pipette, which greatly improved the efficiency of pipetting operations. In the early 1970s, Gilson of France introduced the first single-channel adjustable-range pipette and named it Pipetman.
Later, in the late 1970s, Gilson modified it to make the suction/discharge button and the ejection button independent of each other. In the 1980s, Danish CAPP launched a semi-sterilizable, all-metal, high-precision pipette, and Eppendorf launched the Reference series, which can sterilize the entire pipette. In 1984, the United States RAININ (Raining) began to let the world’s human body experience the thrill of electric pipettes. In 2000, the Danish cap launched the world’s only 64-channel high-precision pipette.
Classification working principle: whether the built-in piston / external piston range is adjustable: adjustable pipette / fixed pipette. Power source: manual pipette / electric pipette. Number of working channels: single-channel pipette / multi channel pipette. special purpose: pipette, continuous dispenser accuracy, and precision accuracy-system error refers to the closeness between the measurement result you get and the real value, expressed as the error.
Generally used to indicate the size of the system error. The degree to which the measured value is close to the true value is called accuracy, and the difference between the two is called error.
Comparative Advantage
It is a common phenomenon in the operation when using the standard tips to remove the surface tension of the liquid, it is easy to leave a film on the inside surface of the tips. The residue of the liquid can lead to the inaccuracy and inconsistency of the fluid transfer results, and also lose some expensive samples. The low-adsorption head was developed to improve the common problem of liquid residue.
Production Process
There are two kinds of the production processes of low-adsorption tips: physical polishing and chemical coating. The former uses polishing technology to treat the surface of the tips, which makes the surface of the tips very smooth to reduce the residual liquid and ensure the safety of the sample more reliably.
However, it cannot ensure the quality of low adsorption tips consistency. Whereas the chemical coating rule is to add a layer of the hydrophobic agent to the surface of the tips, there may be a risk of dissolution by introducing contamination. The safest and most reliable is the low adsorption head produced by Hawach Scientific can help you reduce liquid residue and improve sample recovery rate.
Materials Perspective
It is better to choose the inert material tips, which can ensure chemical compatibility and avoid dissolution. The most commonly used is pure PP material tips. There is an easy-to-judge criterion for the supplier’s use of the material, as long as you look at the color of the tips. The impurities in the tips made of recycled plastic are very easily visible to the naked eye, and when color is added, these impurities will be invisible, so the transparent tips are usually a better tip.
Appearance Perspective
Good quality pipette tips usually have a very attractive appearance. They have smooth surfaces, no burrs, smooth cuts, even shapes, and straightness. Only do that it can ensure that the liquid is not easy to remain an accurate fluid transfer.
Certificate Perspective
If the purchase is a heat-free pipette tip, the supplier should provide the certification of the batch of the product. If there is no qualified certificate, you should think twice, or choose another supplier.
These are some general criteria for the selection of pipette tips. Contact us for more suggestions on the selection of proper products.

2020年1月16日星期四

Features And Applications Of Vacuum Filtration System

Vacuum filtration system is a kind of vacuum filtration device, which ingeniously combines all the components needed for Vacuum filtration on one body, saving space and simple operation. It is widely used in laboratories, including various microbial tests in food, medicine, beverage and drinking water industry, determination of suspended solids in the field of environmental protection, sample pretreatment or solvent purification for micro analysis such as HPLC, GC, AA, etc.
The Vacuum filtration system consists of a filter bottle device and a vacuum pump: The filter bottle includes a triangle collecting bottle, a sand core filter head, a filter cup and a fixing clamp.
1. The filter bottle is made of high-strength and extra hard glass material, with resistance to range temperature change up to 270 degrees and good pressure resistance.
2.The filter bottle is produced in batch, which not only has exquisite appearance, uniform wall thickness, but also has good interchangeability.
3.The oil-free vacuum pump designed for the filter bottle device is compact and practical, easy to operate, high efficiency and low noise. We also provide imported original pump for users.
4.The solvent can be directly extracted from the components, which can make the filtration process as fully sealed as possible, reduce pollution and enhance degassing effect.
Product features of Vacuum filtration system:
1.Filter funnel cup cover: standard with filter funnel cover, can help you to do more microbiological tests.
2. Overflow protection device: the receiving bottle is designed with overflow protection device to prevent water from being pumped out of the bottle.
3.Waste liquid extraction and transfer cover: the receiving bottle is designed with waste liquid extraction and transfer cover, which can change the receiving bottle into waste liquid bottle at any time.
4.Membrane gasket diversion design: the membrane gasket Xuanli diversion design can greatly improve the filtration rate, so that you can complete the experiment in less time.

About The HAWACH Cellulose Extraction Thimbles

Soxhlet extraction mainly consists of heating extraction, flux recovery and cooling. During the operation, the heating temperature can be adjusted according to the boiling point of the reagent and the ambient temperature. The sample is repeatedly immersed and extracted during the extraction process to achieve rapid measurement.
1. Save the solvent. After completing a solvent extraction, the solution is heated, and the volatile solvent is condensed through a condenser tube, re-enters the extraction environment, and starts a new extraction process.
2. The degree of extraction is high, which can be extracted multiple times with a high utilization rate.
3. High raw material utilization.
HAWACH extraction thimble
The extraction thimble is mainly used to place the substance to be extracted in the glass container below, and then the solution is repeatedly immersed in the substance to extract the required components from the substance (such as pesticide residues from pepper). HAWACH offers two kinds of extraction thimbles–cellulose which is mainly used for indoor dust reduction, indoor toxic organic matter (L-phthalic acid) and glass fiber used for detection of fixed pollution sources, like the flue gas, smoke, and dust. Welcome to contact HAWACH to learn more.
Extraction thimbles are common experiment tools in lab. Based on the material, it can be cellulose and galas fiber. The cellulose extraction thimbles are commonly used in the following: fat determination of meat and dairy products; determination of polychlorinated biphenyls in fish products; determination of free fat in food; pesticide residues determination in food; Extract plasticizer from PVC; dioxins extraction; Solid particles; concrete slurry content evaluation. Made of borosilicate glass, this kind of extraction thimbles can be used in the Soxhlet extraction apparatus when the cellulose ones cannot deal with. The various dimensions provided by HAWACH correspond to the dimensions of the extract and will fit these units.
HAWACH cellulose extraction thimbles
Cellulose extraction thimbles is a Soxhlet extraction sample cell for quality control, scientific research and/or analysis; it can easily and safely perform solid and semi-solid solvent extraction; the thimble is suitable for Soxhlet extraction and automatic extraction. All HAWACH extraction thimbles are of high quality and suitable for all well-known manufacturers. The cellulose extraction thimbles are made of high-grade alpha-cellulose/ seamless noble cellulose and linters of cotton, without any binding elements, which is high cleanness with 60% poplar fiber + 40% refined cotton fiber.

About The Status Quo Of Bottle-Top Dispenser Calibration

Like other daily supplies, we need to consider the bottle-top dispenser performance, durability and other aspects, like easy operation and safety, etc.
1.Performance
By performance, we mean dispenser accuracy and repeatability. For most users, it is difficult to check the performance of the bottle-top dispenser before purchasing. Therefore, it is mainly based on the technical data provided by the manufacturer, and carefully check the written materials provided by the manufacturer.
2.Durability
It mainly depends on the materials used. For example, the housing should have high impact resistance, corrosion resistance and low thermal conductivity (such as PVDF material).
3.Easy operation
In order to make the operation more convenient, you can choose a liquid discharge tube with a safety handle, even if you transfer liquid to a very thin test tube, it will be ok.
HAWACH provides the bottle-top dispensers with high quality that are easy to use, easy to clean and easy to maintain for the lowest total cost of ownership. What’s more, all the bottle-top dispensers have verification certificates issued by the authority. If interested, welcome to ask HAWACH to offer.
Usage and feature of bottle-top dispenser
The bottle-top dispenser is an instrument for accurately measuring liquids and it can be used manually or automatically, featuring high precision and high speed. It was born in Europe in the 1960s and is a specialized device used in quantitative dispensing of acid, alkali, salt solution and organic solvent. Due to its convenient operation and precise scale, it has been increasingly and widely used in biological and chemical fields in recent years, as well as various laboratories such as clinical medicine and food inspection, drug testing, water quality monitoring, and physical and chemical analysis.

How To Choose Filter Paper

In general, filter paper can be divided into two types, one is qualitative, one is quantitative. Qualitative filter paper generally refers to the generation of cotton fiber on its surface after filtration, which is generally only suitable for qualitative analysis.
While the quantitative filter paper is generally for the non-ash filter paper, in the process of use must go through a special processing program, to a certain extent, it can effectively resist some chemical reactions, so the generated impurities on its surface will be much less, it is generally used in quantitative analysis.
In addition to the application of filter paper in chemical experiments, there are also applications of filter paper in our daily life. For example, the coffee filter paper is one of the most widely used. In general, this filter paper has high softness, while in industry, the filter paper is generally used to absorb suspended particles in the air.
Basic properties of filter paper
The selection of suitable filter paper must be determined by the following four factors. First, the hardness. Filter paper will be wetted during filtration. The second is its filtration efficiency, which is mainly determined by the tightness of the seepage holes on the filter paper and the size of the holes. Then there is the capacity, which is mainly determined by the density of the holes through which water seeps. The denser the holes, the higher the capacity. Finally, applicability, some filter paper production steps are very special, so the application must pay attention to it.
Filter paper selection factor
In the selection of filter paper should consider the following points:
1. Effective area is large, that is, filter paper use area is large, dust capacity is large, resistance is small, service life is long, of course, the cost is also increased accordingly.

2020年1月14日星期二

High Quality Of Hawach Syringe Filter

In HPLC analysis, the chromatographic column packing has a small particle size and is easily clogged with foreign particles. Therefore, samples and solvents need to be filtered in advance to remove particulate contaminants and protect the instrument.
The ion chromatography commonly used in environmental analysis also requires that no inorganic pollutants be introduced into the sample pretreatment. Syringe filter as an important tool for HPLC analysis and IC analysis. Filtering the sample solution is an important step in the sample pretreatment process.
1. Filter housing material is made of high quality sanitary polypropylene material.
2. The precise design of syringe filter structure ensures smooth filtration, rationalized internal space, and very low residual rate, which reduces sample waste.
3. The edge of the syringe filter is provided with threads to play a non-slip effect. The humanized design makes the operator handy.
4. Stable filter membrane quality and zero difference between batches, ensuring consistency of analysis results.
5.Clear specification markings, eliminating the confusion of confusion.
There are many product series, which is convenient for customers to choose the most suitable product. The diameter of the product ranges from 4mm, 13 mm, 25 mm, 33mm, 50mm, and the pore size is from 0.1 um to 10um. It can meet the filtration needs of different volume capacities and different filtration purposes. There are many types (8 materials) to meet the filtration needs of customers in different research fields. There are sterilized and non-sterilized products to facilitate the selection of aseptic experiments. There are pre-filters and non-pre-filters.
When we purchase the syringe filter, the product quality will be considered as the decisive sector. Generally, the seller or manufacturer would provide a certification and documents regarding the product specifications and testing report. And we can check the parameters to see if they meet our requirements. Here, we can offer you several main points from which you may know the product quality. There are 3 key words: extractability, consistency and operating pressure.

Some Stories About The Sample Vial

Hawach sample vial is also called a sampling bottle, purification bottle, sterile bottle, clean bottle, filter bottle, filter bottle, sampling bottle, filter bottle and so on. It is in accordance with the international standard: ISO3722 “hydraulic drive· sampling vessel cleaning method identification” cleaning qualified special appliances. It is different from other liquid samplers, any beverage bottle shabu line. If the container is cleaned by itself, the contaminated base number (clean grade RCL value) in the container is not clear, the reliability of the final test result will be questioned.
The sample vials are divided into 150ml (PP plastic) outer diameter 50mm* diameter 22mm* bottle height 130mm; 250ml (glass) outside diameter 70mm* diameter 30mm* bottle height 140mm.It can replace the special sample bottle of HIAC PODS, the special sample bottle of imported HIAC and the special sample vial of imported graininess detector.
How to use the sample vial
1. If the cost is sufficient, it is better to use new ones every time.
2, if you want to reuse, the cleaning method is also very important, first with a strong oxidation cleaning solution (potassium dichromate) soak for 24 hours, then with deionized water under ultrasonic conditions three times, finally with methanol cleaning once, drying can be used.
3. The bottle pad must be replaced with a new one, especially when analyzing pesticide residues, otherwise, it will affect the quantitative results.
Recommended cleaning methods.
a. Rinse several times with tap water.
b. Put into a beaker with pure water and ultrasound for 15 minutes.
c. Change the water and ultrasound for 15 minutes.
4. Soak in a beaker with or without ethanol.5. Remove and air dry.

The Character Of Hawach Flash Column

As a professional lab experiment solution provider, HAWACH is dedicated to making the experiment easier and more accurate by offering different kinds of consumables, which can be integrated with a great variety of optional which increases the performance of the experiment and can fulfill specific requests.
Highlights of HAWACH flash column
HAWACH flash column is packed with proprietary technology for automatic packing. The column bed is compact and uniform, has no “ditch flow effect”, with high resolution and good reproducibility.
Different particle sizes of normal phase and reversed-phase silica packing allow users to freely choose different fast separation columns in terms of resolution, sample loading, and flow rate according to different needs of cost and performance.
HAWACH flash column is made of medical-grade polypropylene (PP) material, which avoids the dissolution pollution of common PP materials on the separation sample. In addition, the transparent PP material cylinder can also allow users to visually observe the separation of samples. The column design makes the high-pressure column of the flash column up to 300psi which is safe and leak-free. All HAWACH flash columns have Luer-Lock standard fittings and can be used on a variety of fast liquid chromatography separation systems.
Hawach flash column has three series.
StarFlash series: There are only silica gel flash columns, which are divided into standard and advanced types. Advanced silica gel has higher purity and better quality.

Characteristics And Applications Of Several Commonly Used Filter Membranes

Membrane filter can be described as the permeate and the retentate when the substances pass a single feed stream through a membrane system and separate into two individual streams. And the membrane that separates them is acting like a physical barrier with highly specialized characteristics and pores, so that only certain selected components in the stream can pass through while the larger particles are rejected on the surface and do not have a chance to go into the interior of the filter.
Membrane filter or is limited to membranes used to remove particles larger than 0.1 μm in diameter. The pores of membrane material are very small, so we need to drive force, pressuring the components to go through a thin layer of semi-permeable material.
With a full range of pore size and materials, Hawach has two types of membrane filters: round disc membrane filters and roll type membrane filter. Both of them can be used for filtration and sterilization of liquids, gas, and other samples, removing all micro-organisms and particles without any effects on the ingredients during the process.
Facing the enhancement of green, low-carbon, and environmental protection concepts in today’s world, HAWACH explores the development trend of chromatographic filtration and biological filtration with an international perspective, who is committed to developing high-end filtration products, introducing world-leading advanced production technology and manufacturing processes to meet customer high requirements.
Its filter membranes feature low impurity content with uniform material; 10W class clean workshop cutting and packing high cleanliness, no impurities introduced; ISO9001 standard specifications, strict product quality control, good stability between different batches of the product. Its membranes have different diameters, and rolls have multiple widths for customers with different needs to choose; There are many types of membrane materials, suitable for most laboratory samples of different fields, solvent filtration and sterilization of solvents.
Here are the commonly used filter membranes.
1.Water-based membrane (mixed cellulose ester CN-CA)
Characteristics: uniform pore size, high porosity, no medium shedding, thin texture, small resistance, fast filtration speed, low cost, but not resistant to organic solutions and strong acids and alkalis.

2020年1月13日星期一

Why Does Baseline Drift Appear In HPLC Column?

The sample shall be dissolved as much as possible in solvents that are mutually soluble with the mobile phase. Except for special designation, the resolution of the sample HPLC column may be reduced if it is dissolved using a strong solvent. Besides, the sample solution shall be pre-filtered using a needle filter before injection. Frequent changes in the composition of the mobile phase will accelerate the reduction of column efficiency.
HPLC column is filled with high-pressure slurry and can withstand high pressure. In order to obtain the best separation effect, please do not exceed 200kgf when using, and avoid the sudden rise or change of pressure, otherwise, it will cause the destruction of silica gel filler and reduce the service life of the chromatographic column. The maximum operating temperature shall not exceed 60°C except for special requirements.
Reason
① Column temperature fluctuates. (Even small changes in temperature can cause baseline fluctuations. They usually affect differential detectors, conductivity detectors, lower-sensitivity UV detectors, or other photoelectric detectors.)
② The mobile phase is not uniform. (Baseline drift caused by changes in mobile phase conditions is greater than temperature-induced drift.)
③ The flow cell is polluted or has gas.
④ Detector outlet is blocked. (The high pressure caused the flow cell window to rupture, resulting in a noise baseline.)
⑤ Improper mobile phase ratio or flow rate change
⑥ The column equilibrium is slow, especially when the mobile phase changes.