SKU
HI4012

Lead/Sulfate Half-Cell Ion Selective Electrode (ISE) - HI4012

951,00 €
Na zalogi

The HI4012 is a solid state, half-cell ion selective electrode (ISE) for the determination of lead (Pb2+) in solution and indicator for sulfate in titrations. The lead sulfide sensing pellet produces a potential change due to the ion exchange between the inorganic pellet membrane and the sample. The internal sensing elements are housed within a durable epoxy body.  The HI4012 is ideal for a variety of applications in the plating industry and environmental monitoring.

 

  • Solid state sensor
  • Detection from 0.21 to 20,700 mg/L Pb2+
  • For use with HI5315 reference half-cell

 

The HI4012 lead/sulfate selective electrode is a potentiometric half-cell sensor housed within an epoxy body. The internal elements are isolated from the sample by a compressed lead sulfide sensing membrane. This solid state sensor requires a separate reference electrode to complete the measurement system. Hanna’s solid state half-cell ISEs are designed for use with the HI5315 reference half-cell. The reference half-cell features a cone style junction. The skirted cone geometry of the reference forms the liquid junction with the test solution at the tip of the junction cone, producing a highly stable reference potential and consistent flow rates of electrolyte into the solution. A simple press of the top portion of the ISE makes it easy to empty the electrolyte fill solution and replace when necessary. For the HI4012 to measure lead accurately, it is important that the ionic strength of the standards and sample be adjusted to a high and constant value with the lead ionic strength adjuster (ISA) solution. The ISA ensures that the activity coefficient is constant so the concentration of free lead ions can be measured. Measuring all solutions with a constant ionic strength reduces the margin of error between measurements. The HI4012 lead/sulfate solid state ISE can measure from 1µM (0.21 mg/L) to 0.1M (20,700 mg/L). The HI4012 can also be used as an indicator to follow the progress and detect the endpoint of a precipitation titration of sulfate. During the titration, the lead/sulfate ISE follows the lead concentration while a lead perchlorate solution is used to titrate the sample. The lead in the titrant solution reacts with the sulfate ions present in the sample to form a precipitate. Once all of the lead and sulfate ions have reacted, a change in mV occurs to signal the endpoint, and ultimately the sulfate concentration Conversion Table for Pb2+
  Multiply

moles/L (M) to ppm (mg/L)

2.072 x 105

ppm (mg/L) to M (moles/L)

4.826 x 10-6

Features at-a-glance

Fixed Sensing Modules

  • Solid state half-cell ISEs are electrodes that detect free ions in a solution. The highly insoluble, compressed sensing pellet is attached to the HI4012 lead/sulfate half-cell by a fixed sensing module for ease of use.

Durable Epoxy Body

  • The probe body of the lead/sulfate half-cell ISE is composed of durable epoxy resin.

BNC Connection

  • The HI4012 has a universal BNC connector for easy connection to any benchtop meter with a female BNC probe input.

Theory of Operation

A solid state sensor electrode develops a voltage due to the ion exchange that occurs between the solution and the inorganic membrane. An equilibrium occurs due to the highly limited solubility of the membrane material in the sample. When the ionic strength of the solution is fixed by the addition of ISA, the voltage is proportional to the concentration of free ions in solution.

Specification

   
SKU HI4012
Type solid-state; half cell
Measurement Range 0.1M to 1•10-6M 20700 to 0.21 mg/L (ppm)
Optimum pH Range 4 to 7
Temperature Range 0 to 80°C
Diameter 12 mm
Length 120 mm
Body Material epoxy
Cable 1 m coaxial
Common Applications determination of lead ions in plating baths and as an indicator for titrations
Connection BNC
Vse cene so brez DDV in brez stroškov dostave, razen če ni to kako drugače določeno. Hanna Service d.o.o. — Sermin 75H, Bertoki — 6000 Koper (Slovenjia) — davčna številka: SI92346669 © 2024 Vse pravice pridržane