Measuring the pH of small, precious samples is a recurring challenge in pharmaceutical and biopharmaceutical laboratories. Conventional pH electrodes often struggle in such scenarios, where limited volumes restrict sample interaction and complicate sensor insertion. To overcome these hurdles, METTLER TOLEDO’s InLab Micro Pro-ISM and other specialized pH sensors are designed to deliver precise, reproducible measurements, even with microliter-scale volumes.
This application note explains how the InLab Micro Pro-ISM sensor supports small-volume pH testing, highlights good electrochemistry practices, and shares experimental data demonstrating reliable results across biologically relevant solutions.
Figure 1. Accurate results with METTLER TOLEDO’s InLab® Micro Pro-ISM sensor.
The InLab Micro Pro-ISM is engineered specifically for small-volume pH testing. Its narrow shaft and advanced design ensure accurate measurements in tight containers while maintaining long-term stability.
Accurate small-volume pH measurement requires not only the right sensor but also correct calibration, sample preparation, and maintenance practices. Table 1. Features and advantages of InLab® Micro Pro-ISM sensors.
Using the InLab Micro Pro-ISM, three samples (PBS, BSA in PBS, DNA in tris buffer) were measured with volumes as low as 150 μL in 500 μL vials.
Figure 3. pH Measurement of small volume PBS sample in a 500 μL vial.
| Sensor | Sample | pH | Std. Dev. | Res. Time (s) | Temp. (ºC) |
| InLab® Micro Pro-ISM | PBS | 7.30 | 0.009 | 09 | 25.4 |
| BSA | 7.21 | 0.004 | 18 | 25.6 | |
| DNA | 8.19 | 0.002 | 07 | 21.9 |
Table 2. pH measurement of different sample solutions using InLab Micro Pro-ISM sensors.
Beyond the InLab Micro Pro-ISM, METTLER TOLEDO offers several other electrodes optimized for specific small-volume scenarios:
When combined with InMotion Autosampler and LabX™ software, this sensor enable automated, traceable workflows with centralized data handling.
The InLab Micro Pro-ISM demonstrated high reliability for small-volume pH measurements, consistently delivering precision below 0.05 pH units. It is therefore an excellent choice for laboratories handling limited or precious pharmaceutical and biopharmaceutical samples.
Alternative InLab sensors extend measurement capabilities across even smaller volumes, dense solutions, or droplet surfaces, while automation with InMotion™ further enhances throughput and data management.
By pairing the right sensor with good electrochemistry practices, laboratories can achieve reproducible and efficient pH measurement, even when every microliter counts.
See how METTLER TOLEDO’s automation solutions with InLab Surface Pro-ISM sensor make small-sample pH testing faster and more reliable. With as little as 1 mL of sample, the system automates measurement, sensor cleaning, and even lid handling, saving time while ensuring precise, reproducible results.
Dr. Sagar Patil is an R&D Test Scientist in the pH R&D laboratory at METTLER TOLEDO, where he advances pH measurement technologies and develops innovative solutions for laboratory workflows.
With a Ph.D. in Chemistry and post-doctoral research experience, he applies his expertise in chemical synthesis and instrumentation to create application notes, design products, and ensure precise, reproducible results.
