Shimadzu Refractive Index LC Detector 20A (RID-20A)  

Inheriting the stability and extensibility that are the strengths of the Prominence series, the new Shimadzu Refractive Index LC Detector 20A (RID-20A) model of differential refractive index detector is designed with a new reference-cell auto-purge feature and validation support function.

Specifications :

 
Pressure Relief Valve :
The RID-20A incorporates various safety features. Its maximum pressure is five times that of former Shimadzu products and, as a standard feature, it incorporates a sensor that detects leakage from the cell unit. For extra safety, a pressure relief valve that prevents problems related to back-pressure irregularities is also available as an option.

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Agilent 1290 Infinity II Refractive Index LC Detector  

The 1290 Infinity II Refractive Index Detector is equipped with an ultralow dispersion microflow cell, which significantly reduces run times for higher sample throughput and improved resolution. Lower solvent consumption means much lower cost of analysis. A high-performance detector of choice for accurate, reproducible, routine analysis of polymers and other compounds that aren’t detectable by UV.
Features Of Agilent 1290 Infinity II Refractive Index LC Detector:
Shorter run times – for considerably higher sample throughput.
Ultralow dispersion – for improved sample definition and resolution.
Reduced solvent consumption – for significant savings in analysis cost.
Ideal tool for polymer analysis – consistent molecular weights, micro or analytical scale.
Excellent sensitiv

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HPLC Refractive-Index (RI) Detector  

RI detector measures change in reflex index. A glass cell is divided into two chambers (cells). The effluent from LC column flow through the "sample cell", while other cell called "reference cell" is filled with only mobile phase. When the effluent going through the sample cell does not contain any analyte, the solvent inside both cells are the same (Figure 1A). When a beam is irradiate on the cells, the observed beam will be straight in this case. However, in a case the effluent contains any components other than mobile phase; bending of the incident beam occurs due to the reflex index difference between the two solvents (Figure 1B). By measuring this change, the presence of components can be observed.

RI detector has lower sensitivity compared to UV detector, and that's the main reason

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What Is Evaporative light scattering detector (ELSD)?  

An evaporative light scattering detector (ELSD) is a detector used in conjunction with high-performance liquid chromatography (HPLC). It is commonly used for analysis of compounds that do not absorb UV radiation and therefore cannot be detected by UV detectors, such as sugars, antivirals, antibiotics, lipids, phospholipids, terpenoids, and alcohols.ELSDs fall under the category of general-purpose detectors, similar to refractive index detectors (RI)./wikipedia

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1290 HPLC  

The Agilent 1290 Infinity LC system provides the highest levels of speed, resolution, flexibility and sensitivity for any LC and LC/MS application. 

 

Used Agilent 1290 Infinity Series HPLC System

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1290 Infinity Series HPLC

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 Used Agilent 1290 Infinity Series HPLC System · Download Hplc Agilent Technologies1290 Infinity II LC System Brochure and Guide. Downloa

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High Performance Liquid Chromatography Detectors ( HPLC Detectors)  

1. HPLC UV, VIS, and PDA Detectors
2. HPLC Refractive-Index Detector
3. HPLC Evaporative Light Scattering Detector
4. HPLC Multi-Angle Light Scattering Detector
5. HPLC Mass Spectrometer
6. HPLC Conductivity Detector
7. HPLC Fluorescence Detector
8. HPLC Chemiluminescence Detector
9. HPLC Optical Rotation Detector
10.HPLC Electro Chemical Detector
The actual separation of each component in the sample is carried inside a column; however this separation needs to be "collected" for us to be able to see it. The detectors are used for this purpose. The separated coponents are monitored and expressed electronically. There is no universal detector that can monitor all compounds and there are many detectors used for LC analysis. Some are listed below.


Type
Common Abbreviation

Ultra Violet
UV

V

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HPLC Column | Agilent ZORBAX Carbohydrate Analysis Small Molecule Separations LC Column  

ZORBAX Carbohydrate Analysis Columns are reproducible, efficient, and flexible. These columns use ZORBAX porous silica microsphere technology. Silica manufacture, bonding and packing are all performed in our ISO9001 facilities. ZORBAX Carbohydrate Analysis Columns can handle high volume injections as much as 50 µL on a 4.6 x 150 mm column.
Features Of Agilent ZORBAX Carbohydrate Analysis Small Molecule Separations LC Column:
Reproducible
Efficient – uses ZORBAX porous silica microsphere technology; silica manufacturing, bonding and packing are all performed in Agilent's ISO 9001 facilities
Flexible – can handle high volume injections – as much as 50 μL on a 4.6 x 150 mm column
Recommended for use with refractive index detectors (RID)

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Waters Breeze 2 HPLC  

The Breeze™ 2 HPLC System delivers technology and performance in an affordable, compact, and user-friendly system platform. Complete with software, pump, detector and injector, the system comes pre-configured for different levels of HPLC operational needs.
From teaching purposes to daily analytical work, the Breeze 2 HPLC System integrates simplicity, sensitivity, accuracy, and reliability. It is ideal for any organization seeking a quality HPLC platform with limited budget and chromatography experience including university laboratories, government laboratories, or start-up companies.
The Waters® Breeze 2 HPLC System delivers routine analyses and robust performance day after day, providing the  onfidence you need to get the job done. Used in laboratories worldwide, chromatograp

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Troubleshooting HPLC- Tailing Peaks  

As in the previous posts for this series, these suggestions assume that you are working with an established method and had successful results in the past. If a method is rugged, it is developed to minimize tailing by using a stationary column phase that is base-deactivated as well as appropriate modifiers and pH adjustment in the mobile phase as needed.  Keep in mind that if the method is not as rugged as it should be, change(s) in the method might be advised if tailing continues to be an ongoing problem.

With troubleshooting, as always, it is critical to note when the change occurred and how it might correlate to changes in the system.  Equally important is to change one thing at a time to identify the source(s) of difficulty. The following are examples of things that could contribute

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Troubleshooting HPLC- Loss in Response for Some, but Not All Analytes  

Patterns in your HPLC chromatography can exhibit telltale signs that point toward probable sources of error.  In this brief series of posts, we will look at possible scenarios that you may encounter in the laboratory and how you might approach resolving those difficulties.
When some, but not all of your peaks are low, and you are analyzing multiple analytes, the number one rule is to look for trends. As mentioned in the previous post for this series, when you have only one analyte, or a handful of very similar analytes, the following may also apply. Again in this post, the assumption is that you are using an established working method and that you see a loss in response for every sample or standard that is injected. If you are only seeing the problem with samples and not your quantitation

ادامه مطلب  

Troubleshooting HPLC- Loss in Response for Some, but Not All Analytes  

Just as in GC applications, patterns in your HPLC chromatography can exhibit telltale signs that point toward probable sources of error.  In this brief series of posts, we will look at possible scenarios that you may encounter in the laboratory and how you might approach resolving those difficulties.
We occasionally get calls or emails from folks that are seeing lower than expected response for peaks of interest. This may be a matter of method development if you have not done this analysis previously. Suggestions in the post are provided assuming you are working with an established method and have had successful results over an extended period of time (until recently). These suggestions also assume that the response is low for quantitation standards as well as in prepared QC samples. If

ادامه مطلب  

Troubleshooting HPLC- Loss in Response for all Analytes  

Just as in GC applications, patterns in your HPLC chromatography can exhibit telltale signs that point toward probable sources of error.  In this brief series of posts, we will look at possible scenarios that you may encounter in the laboratory and how you might approach resolving those difficulties.
We occasionally get calls or emails from folks that are seeing lower than expected response for peaks of interest. This may be a matter of method development if you have not done this analysis previously. Suggestions in the post are provided assuming you are working with an established method and have had successful results over an extended period of time (until recently). These suggestions also assume that the response is low for quantitation standards as well as in prepared QC samples. If t

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Evaporative Light Scattering Detector (ELSD)  

An evaporative light scattering detector (ELSD) is a detector used in conjunction with high-performance liquid chromatography (HPLC). It is commonly used for analysis of compounds where UV detection might be a restriction and therefore compounds does not very efficient absorb UV radiation, such as sugars, antivirals, antibiotics, lipids, phospholipids, terpenoids, and alcohols. ELSDs fall under the category of general-purpose detectors, similar to refractive index detectors (RI).

ELSD | Evaporative Light Scattering Detector

elsd.hplchplc.com/

 

... Scattering Detector. An evaporative light scattering detector (ELSD) is a detector used in conjunction with high-performance liquid chromatography (HPLC).

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P

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Shimadzu Evaporative Light Scattering LC Detector LTII (ELSD-LTII)  

In the history of high-performance liquid chromatographs, which dates to the early 1960s, refractive index detectors (RI detectors) have often been used as general-purpose detectors. RI detectors enable the detection of components that do not possess UV absorbance and give a proportional relationship between the heights of detected peaks and the quantities of detected components. So, in comparison with absorbance detectors (UV detectors), they offer advantages such as the ability to ascertain unknown component quantities and obtain molecular weight distributions for macromolecules. On the other hand, they also have various disadvantages. For example, they cannot be used for gradient analysis, the baselines they produce are susceptible to the influence of fluctuations in the ambie

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Chromatography terms / analyte / Analytical chromatography / bonded phase / chromatogram /...  

The analyte is the substance to be separated during chromatography. It is also normally what is needed from the mixture.
Analytical chromatography is used to determine the existence and possibly also the concentration of analyte(s) in asample.
A bonded phase is a stationary phase that is covalently bonded to the support particles or to the inside wall of the column tubing.
A chromatogram is the visual output of the chromatograph. In the case of an optimal separation, different peaks or patterns on the chromatogram correspond to different components of the separated mixture.
 Plotted on the x-axis is the retention time and plotted on the y-axis a signal (for example obtained by a spectrophotometer, mass spectrometer or a variety of other detectors) corresponding to the response creat

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