Hints and tips - Electrochemistry - Chromservis.cz

GMP, GLP, ISO 9001, EN 45000, Calibration, Verification, Traceability, and Certification from an accredited organization: Key words those are increasingly important. The calibration of pH and Redox electrodes has never been easy. All calibration procedures assume that the labelled values of the calibration buffers are correct. But buffer values can change over time and so can your results

A complete range of patented buffer solutions provides never before achieved pH stability. Hamilton guarantees DURACAL pH buffers for 5 years after the date of manufacture. The pH 9.21 and pH 10.01 buffers are even stable in air. See the diagram below for details. High buffering capacity provides rapid, stable calibration. Preservatives are added to prevent microbial and mold growth.

Traceability

An important issue for the production of Certified Reference Material is to ensure the traceability through an unbroken chain of comparisons to reference mate­rial of the highest metrological quality (Primary Reference Material).

• Closed Loop Traceability: Unlike other manufacturers where only a top-down traceability is applied, Hamilton is work­ing with circular or closed loop traceability. The closed loop traceability ensures the users of Hamilton DURACAL buffer a unique reliability!


• Top-down traceability: At Hamilton, the pH value of DURACAL buffers is de­termined by comparison against two Sec­ondary Reference Buffer Solutions. These are purchased from accredited suppliers for Secondary Reference Materials. The so­lutions themselves are compared against Primary Reference Solutions from PTB¹⁾ or NIST ²⁾.


• Bottom-up traceability: To ensure the highest possible accuracy and full reliability of the pH value, a representa­tive number of samples from every single production lot is sent to a German DKD³⁾ laboratory (DKD-K-06901) for an external, independent and impartial verification. In this laboratory, the DURACAL samples are compared against Secondary Reference Solutions from DKD-K-06901.

The Secondary Reference Solutions are of course compared against Primary Refer­ence Solutions from PTB. At this stage, the loop is closed: the PTB Primary Refer­ence Solution is the starting and ending point of the traceability loop. DKD provides Hamilton with a calibration certificate for every DURACAL production lot.

Often the pH meters are used in applications, which require regular cleaning of the electrode. These applications involve very hard waters, dirty samples like soil slurries, viscous materials or samples with high oil and protein content. We do not recommend these procedures for persons unfamiliar with or unable to use safe techniques involving these chemicals: Detergents, HCl (Hydrochloric Acid), and NaOH (Sodium Hydroxide).

Method 1

Soak the electrode in a 0.4 molar concentration of HCl (hydrochloric acid) for 10 minutes, then rinse the electrode with deionized or distilled water. This should remove any organic protein from the glass  electrode and the surface of the reference electrode.

Method 2

Soak the electrode in a 3.8 or 4.0 molar KCl (potassium chloride) solution heated to 50°C for 1 hour. Allow the KCl solution to cool down to room temperature, then rinse the electrode with deionized or distilled water. This will open and clean the reference electrode of all contaminants.

Method 3

Soak the electrode in a 4.01 pH buffer solution (EC-BU-4BT), heated to 50°C for 1 hour. Allow the buffer to cool down to room temperature, then rinse the electrode with deionized or distilled water. This will open and clean the reference electrode.

Method 4

After each use, rinse the electrode in 0.5 N or 1% HCl. If you have a build-up of oil or protein contaminants, try soaking the electrode in warm detergent and water solution. Degreasing dishwashing detergents or stain removing pre wash pretreatment are ideal for this: any brand will do. An overnight soak may be needed if build-up is heavy. Then rinse the pH sensor in deionized or distilled water and soak for 10 minutes in 1% HCl. Rinse the pH sensor in deionized or distilled water and check in buffers. If the pH sensor calibrates to buffers it can be used in tests. When the pH electrode cannot be calibrated even after attempts to clean it, it must be replaced.

Method 5

For protein removal, soak the pH electrode in contact lens enzymatic cleaner solution overnight. The enzymes will remove proteins from glass and plastic.

Physical properties measurement is mostly based on sensors with limited life time. So that these sensors give precise and accurate data, you have to properly use and store them. This website should help you in this point.

• Can you trust your buffer solution?


• Cleaning & reconditioning pH electrodes


• Colorimetric measurement


• Maintenance and storage of pH electrodes


• pH measurement


• Turbidity measurement

Maintenance and storage of pH electrodes

pH electrodes are delicate sensors that require proper care and maintenance to produce accurate and reliable results, and to prolong useful life. When the pH electrode is not used for a period of time, always keep it moist. Store the pH electrode in storage solution or in a pH 7 buffer. DO NOT store the electrode in distilled or deionised water as this will cause ions to leach out of the glass bulb and reference eledtrolyte, causing slow and sluggish response.

pH electrodes may be shipped with either protective caps or in electrode soaking bottles to prevent cracking or scratching, and to keep the glass bulbs moist. Remove the electrode gently from the storage bottle and rinsse it with distilled water before use. For long-term storage, always keep the pH electrode in the bottle, filled with sufficient storage solution to cover the glass bulb. Replenish the bottle as needed.