Everything You Should Know About Graduated Pipettes

If you’ve ever tried measuring a precise volume of a liquid in your laboratory, you’ve probably used a graduated pipette at least once. Whether you’re mixing reagents for an experiment or preparing a standard solution for a chemistry practical, a graduated pipette is often the tool that ensures the exactness you demand.

Graduated pipettes are available in various classes, standards, and configurations to suit different precision levels and regulatory requirements. They may seem simple at first glance, but there’s a lot to consider if you want to get the most out of them, from choosing the right class of accuracy to understanding the marking techniques and calibration standards.

What is a Graduated Pipette?

A graduated pipette is a long, narrow glass marked with a series of graduations for measuring and transferring liquids. Unlike volumetric pipettes, which are calibrated to measure a single fixed volume, graduated pipettes offer flexibility with their multiple-volume markings.

These pipettes are commonly used in:

Analytical chemistry for titrations and solution preparation.
Biological research for transferring reagents or samples.
Quality control in pharmaceutical labs for precise liquid handling.

Classes of Pipettes: Class A vs. Class B

When exploring pipettes, you’ll encounter different classes, most notably Class A and Class B. Class A pipettes offer the highest accuracy and are calibrated to stringent standards. They come with calibration certificates that demonstrate traceability to national standards, making them ideal for critical analyses. Class B pipettes, while still accurate, have slightly broader tolerance limits and are often suited for routine laboratory work where top-tier precision is not as critical.

Types of Graduated Pipettes

Graduated pipettes come in several varieties, each designed for specific tasks and compliance standards. Some pipettes measure liquids from a zero mark downward (Mohr pipettes), while others are designed to deliver the total volume down to the tip (Serological pipettes).

Serological Pipettes: These pipettes are usually graduated to the tip. Two rings at the top often indicate that the pipette is calibrated to deliver from any graduation line down to the tip, ensuring that no residual volume remains. Serological pipettes are ideal for transferring small volumes of liquid in a wide range of laboratory applications.
Mohr Pipettes: Mohr pipettes are graduated for delivery between two specific graduations, allowing you to measure out intermediate volumes. They do not deliver the full volume down to the tip.

Feature	Class A Serological Pipettes	Class B Serological Pipettes	Class A/ Class BMohr Pipettes	High-Capacity Stirrer
Calibration	To the tip	To the tip	Between graduations	Industrial-scale operations
Marking Colour	Amber	Amber/ White	Amber/ White	Up to 20 litres
Typical Use	High-precision tasks	Routine applications	Partial volume transfers	Hermetic construction
Temperature Calibration	20°C/ 27°C	20°C/ 27°C	20°C/ 27°C	Precise temp regulation

Applications of Graduated Pipettes

Graduated pipettes find applications in diverse scientific fields due to their versatility and precision.

1. Analytical Chemistry

In chemical analysis, graduated pipettes are indispensable for preparing standard solutions, performing titrations, and accurately diluting samples. Their flexibility allows researchers to handle varying liquid volumes effortlessly.

2. Pharmaceutical Research

Pharmaceutical laboratories rely on graduated pipettes to maintain the accuracy of drug formulation and quality control. For instance, Class A pipettes, which come with individual calibration certificates, ensure compliance with stringent regulatory standards.

3. Biological Studies

In cell culture and microbiology, graduated pipettes are used for transferring precise amounts of reagents, media, or samples. Their ability to handle small volumes makes them ideal for delicate processes.

4. Environmental Testing

Graduated pipettes play a key role in water quality testing and soil analysis by enabling precise liquid handling for accurate measurements.

Key Features of Graduated Pipettes

Graduated pipettes are designed to offer precision and durability. Some key features include:

Graduation to the Tip: Allows full utilisation of the pipette’s volume.
Durable Markings: Amber or white enamel markings are diffused into the glass surface, ensuring long-lasting visibility.
Borosilicate glass construction ensures thermal stability and chemical resistance.
Calibration Certificates: Individual or batch certificates provide traceability to national or international standards.

For example, the 7079 Class A Serological Pipette from Borosil Scientific combines all these features, making it a reliable choice for high-accuracy tasks.

Maintenance and Handling Tips

Proper care extends the lifespan of graduated pipettes and ensures consistent performance. Follow these tips for optimal use.

Cleaning: Clean the pipettes immediately after use to prevent the buildup of residue. Use a detergent compatible with borosilicate glass for effective cleaning.
Storage: Store pipettes vertically in a holder to avoid damage and ensure proper drainage.
Calibration Checks: Regularly verify the accuracy of your pipettes by checking against known standards.
Avoid Abrasive Cleaners: Use non-abrasive cleaning tools to preserve the markings and surface finish.
Handle with Care: Avoid dropping or exposing pipettes to sudden temperature changes, which can lead to cracks or calibration shifts.

Why Graduated Pipettes Are Indispensable?

The flexibility, precision, and ease of use offered by graduated pipettes make them an essential tool in any laboratory. Their applications span multiple disciplines, making them a universal solution for liquid handling tasks. When paired with high-quality materials and robust calibration, these pipettes ensure accurate and reproducible results, allowing researchers to focus on their experiments without concern for measurement errors.

When Should You Choose Class A Over Class B or Mohr Over Serological?

Critical Accuracy (Class A): If you’re performing a validation test for a new pharmaceutical product or working in a quality control lab where volumes must be exact, Class A serological pipettes are your best bet. Their calibration certificates and stringent compliance ensure no room for error.
Routine Measurements (Class B): For routine tasks like preparing buffer solutions, media for cultures, or less critical measurements, Class B pipettes offer a balance of accuracy and cost-effectiveness.
Versatility (Mohr Pipettes): If your work involves measuring out variable volumes without always needing the full volume to the tip, Mohr pipettes provide flexibility. They’re also a good teaching tool for students learning volume measurements.

Conclusion

Graduated pipettes might seem like simple glass tools, but their accuracy, compliance standards, and calibration details can make a big difference in your laboratory work. Understanding the differences between Class A, Class B, Serological, and Mohr pipettes can help you select the perfect instrument for your specific needs. Investing in well-calibrated, durable pipettes ensures that your lab work remains consistent, reproducible, and trustworthy.

At Borosil Scientific, we understand the importance of accuracy and durability in laboratory tools. Our range of serological and Mohr pipettes, backed by compliance with ASTM, USP, IS, and ISO standards, ensure you have the right tool for every job. Contact us to learn how we can support your laboratory’s success with precision-crafted pipettes.