Lab Chromatography IC Supplies encompass a wide range of consumables and equipment critical for analytical chemistry, research, and educational applications, facilitating the separation and analysis of complex mixtures. These supplies are fundamental for techniques ranging from basic paper chromatography to advanced ion chromatography and solid-phase extraction. Products were evaluated based on application specificity, material compatibility, capacity, ease of use, and feature analysis.
Chromatography Solvent (9:1), 500 mL - The Curated Chemical Collection
$30.99
This general-purpose solvent is a foundational consumable for a wide array of chromatographic techniques, making it universally applicable.
Search on AmazonEISCO 100PK Chromatography Filter Papers, 8 Inch - No. 1 - Used in Separation Experiments & Filter Paper Art
$72.49
These chromatography filter papers offer an economical solution for educational and basic separation experiments.
Search on AmazonLaboratory ion Chromatography Column IC Column C18-1cc Sample pretreatment SPE Column 1mL Solid-Phase Extraction SPE Packing for HPLC
This specialized C18 SPE column provides targeted sample pretreatment, indicative of higher-level analytical applications in ion chromatography or HPLC.
Search on AmazonLooking for the best Lab Chromatography IC Supplies?
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To help you make the best choice among the hundreds of products available, we have decided to offer you a comparison of the Lab Chromatography IC Supplies in order to find the best quality/price ratio. In this ranking, you will find products listed according to their price, but also their characteristics and the opinions of other customers. Also discover our comparisons by categories. You won’t have to choose your products at random anymore.
- 500mL bottle of chromatography solvent
- Chemical for general purpose lab and educational use
- Each bottle has safe handling and storage procedures printed directly on the bottle
- Used for performing paper chromatography
- This chemical is designed for lab or educational use only - not for food, drug, or home use
- PACK OF 100 || 100 sheets of no. 1 chromatography filter papers
- LARGE || Each sheet measures 8" x 8" and is very thin
- FOR SEPARATION || Used in chromatography to separate a sample into its component parts - Used to test for the presence of various materials, to monitor the rate and progress of a reaction or to determine the purity of a product
- USEFUL IN FUN EXPERIMENTS || Can be used for various experiments in the laboratory and at home - Paper allows students to separate most water-soluble inks into their original blended pigments to reveal their hidden coloration
- ABSORBENT || Absorbs liquids and provides more surface area for evaporation meaning more and faster evaporation which, in turn, means more vapor which is often desired
- 1. Use a disposable syringe to draw 5 mL of chromatographic pure methanol and push it into the C18 cartridge at a flow rate of 2~4 mL/min.
- 2. Use a disposable syringe to draw 10mL of secondary deionized water and push it into the C18 cartridge at a flow rate of 2~4mL/min.
- 3. The C18 cartridge should be placed flat for 20 minutes to ensure its full activation.
- 4. Use a disposable syringe to draw the sample solution, push it into C18 at a flow rate of 2~4mL/min, and discard the first 3mL.
- 5. Collect the following liquid, combine it with a syringe filter, and directly enter the ion chromatography for analysis, or transfer it to a sample bottle for sample injection analysis through an autosampler.
- Use this kit to introduce your students to ink chromatography and its application in solving forensics cases
- Includes materials for three detailed activities (with ‘model’ and ‘inquiry’ investigational paths
- Also contains a DVD with PDF Teacher and Student Guides and other digital content
- 500 per pack capillary tubes, 0.5 mm inner diameter, 0.75 mm outer diameter, 100mm length. Made of borosilicate glass
- As shown in photos, approximate spotting volume as tested for dichloromethane is 15mm x (0.25mm)² x 3.14 = 3µL, for acetone is 25mm x (0.25mm)² x 3.14 = 5µL, and for water is 45mm x (0.25mm)² x 3.14 = 9µL.
- Testing method used is placing the tube at a straight up angle with only the tip submerged in the liquid and allowing the liquid to keep on climbing until it stops.
- Upgraded convenient packaging with a 1.5mm diameter hole on cap for easy tube drawing without need to open the cap or keeping it open all the time.
- Package Dimensions: 16.764 cms (L) x 4.572 cms (W) x 3.81 cms (H)
- Product Type: Lab Supply
- Package Quantity: 1
- Country Of Origin: United States
- Provides students with greater understanding of the role of plant pigments in photosynthesis
- Extract plant pigments
- Perform chromatography to separate plant pigments
- Confirm presence of and understand role of hidden pigments
- Kit contains enough materials for 15 groups and includesTeacher's Manual and Student Study Guide copymasters
- Length: 100mm; Inner Diameter: 0.3mm; Outer Diameter: 0.5mm; Diameter Tolerance: 0.1mm.
- Mainly used for sampling from reaction vessels with small volumes, as well as for TLC plates.
- The large pack of 1000 tubes meets the demands of frequent use in laboratories.
- Capillary tubes are fragile due to their glass composition and small diameter; handle with care.
- If received damaged, please let us know and we will solve it promptly.
- Students will perform a chromatography experiment in order to identify the amino acids within an unknown protein
- The chromatography will be run for three known amino acids and one unknown protein
- Hands-on experience with chemical techniques
- Includes enough material for fifteen groups of students
- Kit includes teacher's manual, student study guide copymasters, and safety data sheets for all included materials
- 500 per pack capillary tubes, 0.3mm inner diameter, 0.5mm outer diameter. 100mm length.
- Convenient packaging with 1.5mm hole on cap for easy tube drawing without need of opening the cap or keeping it open all the time.
- As shown in photos, approximate spotting volume as tested for dichloromethane is 20mm x (0.15mm)² x 3.14 = 1.5µL, for acetone is 30mm x (0.15mm)²x 3.14 = 2µL, and for water is 50mm x (0.15mm)² x 3.14 = 3.5µL.
- Testing method used is placing the tube at a straight up angle with only the tip submerged in the liquid and allowing the liquid to keep on climbing until it stops.
- With a relatively large quantity of 500 or 1500 tubes, at a highly affordable price, one can say goodbye to reusing capillary tubes in TLC spotting (or any other application), other than perhaps using both ends once each. Save the time, effort, washing...
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Last update on 2026-04-17 / Affiliate links / Images from Amazon Product Advertising API
How to Choose the Best Lab Chromatography IC Supplies
Understanding Chromatography Application Needs
The primary consideration when selecting lab chromatography supplies is the specific application. For educational settings or basic qualitative separations, products like the Innovating Science Paper Chromatography Kit or EISCO 100PK Chromatography Filter Papers are typically sufficient. These are designed to demonstrate fundamental principles, such as separating dyes. In contrast, more advanced analytical work, particularly in ion chromatography or HPLC sample preparation, often requires specialized components. The DFUVFKGOP C18-1cc Sample pretreatment SPE Column, for instance, is engineered for solid-phase extraction, demanding specific activation protocols for optimal performance in isolating target analytes.
Column Design and Material Compatibility
For column-based chromatography, the design and material of the column are paramount. Glass columns, such as the Kimble Flex-Column 420401-2510 Borosilicate Glass Economy Chromatography Columns, are often preferred for their chemical inertness and reusability in general lab separations. These columns come in various dimensions (e.g., 2.5cm ID, 10cm Length), allowing users to select based on sample volume and desired separation efficiency. Conversely, pre-packed columns like the DFUVFKGOP C18 cartridge offer convenience and consistent performance for specific separation chemistries, though they are typically disposable after a limited number of uses or a single application.
Consumable Specificity and Purity
The purity and specificity of consumables directly impact experimental accuracy and reproducibility. Solvents, such as the Chromatography Solvent (9:1) from The Curated Chemical Collection, must meet strict purity standards to avoid introducing contaminants that could interfere with results. Similarly, packing materials like EASTCHEM C-Type Silica Gel or the C18 packing in the DFUVFKGOP column are selected based on their particle size, pore structure, and chemical properties to achieve specific separation mechanisms. Users often report that generic supplies can lead to inconsistent baseline noise or poor peak resolution, underscoring the importance of purpose-designed products for critical applications.
Pros & Cons
Chromatography Solvent (9:1), 500 mL - The Curated Chemical Collection
Pros
- Suitable for general-purpose lab and educational use across various chromatography types.
- Clear safe handling and storage procedures are printed directly on the bottle, enhancing user safety.
- Provides a foundational chemical component essential for mobile phase preparation in many experiments.
Cons
- Specific chemical composition (9:1 ratio) may not be optimal for all specialized chromatographic methods.
- Lacks specific application guidelines beyond 'general purpose,' requiring user expertise for method development.
Laboratory ion Chromatography Column IC Column C18-1cc Sample pretreatment SPE Column 1mL Solid-Phase Extraction SPE Packing for HPLC
Pros
- Designed for specific sample pretreatment (SPE) using C18 packing, critical for HPLC/IC applications.
- Includes detailed, step-by-step activation instructions, guiding users for optimal performance.
- Facilitates efficient removal of matrix interferences and analyte concentration prior to analysis.
Cons
- Requires precise activation steps, which if not followed, can compromise column effectiveness.
- Likely a single-use or limited-use item, potentially increasing per-sample cost compared to reusable options.
Kimble Flex-Column 420401-2510 Borosilicate Glass Economy Chromatography Columns, 49ml Volume, 2.5cm ID, 10cm Length, 4.91cm3 Cross Sectional Area , White
Pros
- Constructed from durable borosilicate glass, offering chemical resistance and reusability.
- Provides precise dimensions (49ml Volume, 2.5cm ID, 10cm Length) for controlled column chromatography setups.
- An economy option that allows for custom packing with various stationary phases.
Cons
- Requires users to pack their own stationary phase, which can be time-consuming and requires skill.
- Does not include packing material, necessitating a separate purchase for a complete setup.
Common Mistakes to Avoid
Overlooking the Correct Column Activation Protocol
A common pitfall in advanced chromatography is neglecting the specific activation steps required for specialized columns. For instance, the DFUVFKGOP C18-1cc Sample pretreatment SPE Column explicitly details a three-step process involving methanol and deionized water, followed by a 20-minute flat placement for full activation. Users who bypass or shorten these crucial steps often report inconsistent retention or poor recovery rates, compromising the integrity of their sample pretreatment.
Selecting an Inappropriate Column Dimension or Material
Mismatched column specifications can severely hinder separation efficiency. Choosing a column like the Kimble Flex-Column 420401-2510 with its 49ml volume and 2.5cm ID for a micro-scale separation, for example, would result in excessive solvent consumption and diluted peaks. Conversely, attempting to load a large sample onto a smaller column, such as the 4ml volume Kimble Flex-Column 420401-1005, will lead to overloading and poor resolution. The selection must align with sample volume and desired separation scale.
Misjudging the Scope of Paper Chromatography Experiments
While kits like the Innovating Science Paper Chromatography Kit are excellent for demonstrating basic principles, a frequent mistake is attempting to use them for complex analytical separations or quantitative analysis. Paper chromatography, utilizing materials like EISCO Chromatography Filter Papers, is primarily qualitative and suited for simple separations of readily visible components. It is not designed for the precise, high-resolution separations or accurate quantification achievable with column-based methods or specialized IC systems.