CATEGORIES

    Ion Emission SpectroMeter

    Overview Products Knowledge Standards Terms
    Ion emission spectrometers excite samples using an electric arc to produce ionized atoms, and determine elemental content by measuring the intensity of light emitted at specific wavelengths. They are used for detecting trace elements in metallic materials and environmental monitoring, and can analyze both solid and liquid samples.
    Selection
    When selecting, consider the matching of the detection element range with the sample type, pay attention to the detection limit and precision parameters, evaluate the instrument's stability and maintenance costs, verify whether it meets the required certification standards, and confirm the alignment between operational complexity and personnel skill levels.

    Terms

    Laboratory Ion Meter
    Sodium Ion Analyzer
    Silver ion meter
    Residual Chlorine Meter
    Laboratory Water Hardness Meter
    Ion Analyzer
    Chlorine Content Detector
    Calcium Ion Analyzer
    Experimental ultrapure water machine
    Ammonia Nitrogen Detector

    Standards

    Active GB/T 30836-2014
    Lithium titanium oxide and its carbon composite anode materials for lithium ion battery
    Active GB/T 30835-2014
    Lithium iron phosphate-carbon composite cathode materials for lithium ion battery
    Abolish GB/T 36276-2018
    Lithium ion battery for electrical energy storage
    Active GB/T 24533-2019
    Graphite negative electrode materials for lithium ion battery
    Active GB/T 33143-2022
    Aluminium and aluminium alloy foils for lithium ion batteries
    Active GB/T 41704-2022
    Test methods of cathode materials for lithium ion battery—Determination of magnetic impurities content and residual alkali content
    Active GB/T 43092-2023
    Electrochemical performance test of lithium ion battery cathode materials—Test method for high temperature performance
    Active GB/T 36276-2023
    Lithium ion battery for electrical energy storage
    Active GB/T 44330-2024
    Lithium-ion battery cathode materials—Determination of powder compaction density
    Active GB/T 45324-2025
    Determination of powder resistivity for cathode materials of lithium ion battery
    Incoming GB/T 46514-2025
    Test method for cathode materials of lithium ion battery—Determination of crystal structure—X-ray diffraction method
    Incoming GB/T 46513-2025
    Electrochemical performance test of lithium ion battery cathode materials—Test method for low temperature performance
    Incoming GB/T 46732-2025
    Technical specification for lithium-ion batteries for household and similar electrical appliances
    Active GB/T 12007.2-1989
    Epoxide resins--Determination of sodium ion
    Active GB/T 7991.10-2024
    Test method of viterous and porcelain enamels—Part 10:Determination of dissolution of heavy metal ions from enamelled articles used for preparation and storage of food and limits

    Instruments

    BANTE A131-Cn laboratory ion Meter precision Ion concentration water hardness measuring device
    BANTE A131-Cn laboratory ion Meter precision Ion concentration water hardness measuring device

    Equipped with 7-inch TFT display, supports 5 ion Measuring methods, automatically recognizes ion selective ElectRode, can store 1000 sets of data, Measurement accuracy of +/- 1% F. S, suitable for a variety of Ion concentration detection.

    $ 864.00
    BANTE ION-Cu standard solution, ion standard solution, copper ion 1000ppm
    BANTE ION-Cu standard solution, ion standard solution, copper ion 1000ppm

    Concentration 1000ppm of copper ion standard solution, PTFE bottle Encasement, capacity 480mL, suitable for daily ion calibrating applications.

    $ 135.00
    BANTE A131-CL laboratory ion Meter precision Ion concentration water hardness measuring device
    BANTE A131-CL laboratory ion Meter precision Ion concentration water hardness measuring device

    Equipped with 7-inch TFT display, supports 5 ion Measuring methods, automatically recognizes ion selective ElectRode, can store 1000 sets of data, Measurement accuracy of +/- 0.5% F. S, suitable for a variety of Ion concentration detection.

    $ 864.00
    BANTE ION-Br standard liquid, ion standard liquid Bromine ion 1000ppm
    BANTE ION-Br standard liquid, ion standard liquid Bromine ion 1000ppm

    Universal ion standard solution concentration 1000ppm, suitable for daily ion calibrating, PTFE bottle Encasement, capacity 480mL, to ensure calibrating accuracy and Stability.

    $ 135.00
    BANTE A131-Br Laboratory ion Meter Ion concentration Hardness measurement
    BANTE A131-Br Laboratory ion Meter Ion concentration Hardness measurement

    Equipped with 7-inch TFT display, supports 5 ion Measuring methods, automatically recognizes ElectRode, Measurement accuracy +/- 0.5% F.S., can store 1000 sets of data, suitable for a variety of Ion concentration detection.

    $ 864.00
    BANTE A131-Ag laboratory ion Meter precision Ion concentration water Hardness Tester
    BANTE A131-Ag laboratory ion Meter precision Ion concentration water Hardness Tester

    Equipped with 7-inch TFT display, supports 5 ion Measuring methods, automatically recognizes ion selective ElectRode, expands memory to store 1000 sets of data, Measurement accuracy of +/- 1% F.S.

    $ 864.00
    LEICI PF-202 Ion Composite ElectRode Fluoride Ion Selective ElectRode BNC Plug
    LEICI PF-202 Ion Composite ElectRode Fluoride Ion Selective ElectRode BNC Plug

    Measurement range of 1~ 2 × 10, using BNC plug design, matching pH and ion Meter, easy operation and fast Response, suitable for accurate Ion concentration detection.

    $ 191.00
    BANTE ION-Cd standard solution, cadmium ion standard solution 1000ppm general ion calibrating solution
    BANTE ION-Cd standard solution, cadmium ion standard solution 1000ppm general ion calibrating solution

    General ion standard solution with a concentration of 1000ppm, using PTFE solution bottle Encasement, capacity 480mL, suitable for daily ion calibrating needs.

    $ 135.00
    BANTE A131-S Laboratory ion Meter 7 inch TFT display 5 ion Measuring methods
    BANTE A131-S Laboratory ion Meter 7 inch TFT display 5 ion Measuring methods

    Equipped with 7-inch TFT display, supports 5 ion Measuring methods, automatically recognizes ion selective ElectRode, can store 1000 sets of data, Measurement accuracy of +/- 1% F.S.

    $ 864.00
    BANTE A131-Ca laboratory ion Meter precision Ion concentration water hardness measuring device
    BANTE A131-Ca laboratory ion Meter precision Ion concentration water hardness measuring device

    Equipped with 7-inch TFT display, supports 5 ion Measuring methods and a variety of concentration units, automatically recognizes ion selective ElectRode, can store 1000 sets of data, Measurement range 5 × 10~ 1M.

    $ 864.00
    BANTE ISA-K Ion Strength Regulator, Universal Potassium Ion Regulator
    BANTE ISA-K Ion Strength Regulator, Universal Potassium Ion Regulator

    Constant background ion strength, Shielding interfering ions and adjusting sample pH value, capacity 480mL, PTFE bottle Encasement, suitable for a variety of ion measurement environment.

    $ 135.00
    BANTE A131-K laboratory ion Meter precision Ion concentration water hardness measuring device
    BANTE A131-K laboratory ion Meter precision Ion concentration water hardness measuring device

    Equipped with 7-inch TFT display, supports 5 ion Measuring methods and 13 optional paraMeters, Measurement accuracy +/- 1% F. S, automatically recognizes ion ElectRode and stores 1000 sets of data, with calibrated reminder and USB Communication interface.

    $ 864.00
    LEICI type II, conventional concentration total ion strength adjustment buffer, fluoride ion composite ElectRode special
    LEICI type II, conventional concentration total ion strength adjustment buffer, fluoride ion composite ElectRode special

    250Ml Encasement Specification, dedicated to fluoride ion detection, provides a stable ion strength environment, effectively guarantees ElectRode Measurement accuracy and Repeatability.

    $ 127.00
    BANTE ION-Ca standard solution, ionic standard solution, calcium ion 1000ppm
    BANTE ION-Ca standard solution, ionic standard solution, calcium ion 1000ppm

    Calcium Ion concentration 1000ppm, PTFE solution bottle Encasement, capacity 480mL, suitable for daily ion calibrating, to ensure measurement accuracy.

    $ 135.00
    BANTE A131-NH4 laboratory ion Meter precision Ion concentration water hardness measuring device
    BANTE A131-NH4 laboratory ion Meter precision Ion concentration water hardness measuring device

    Equipped with 7-inch TFT display, supports 5 ion Measuring methods and 2 to 5 point calibrating, automatically recognizes ion selective ElectRode, can store 1000 sets of data, Measurement accuracy of +/- 0.5% F.S.

    $ 864.00

    Articles

    Cost-performance analysis of single-channel versus multi-channel switching modules when selecting a laboratory ion meter.
    This article compares the cost-effectiveness of single-channel and multi-channel switching modules for laboratory ion meters. Single-channel devices have lower purchase costs, but additional instruments are required for each additional detection parameter. Multi-channel units have higher initial investment, but when testing more than three parameters, the total cost over three years is lower and the sample throughput is greater.
    Salt spray test chamber for testing the corrosion resistance of plastic coatings.
    The salt spray test chamber accelerates the testing of the corrosion resistance of plastic surface coatings by simulating a salt spray environment containing chloride ions. The test is conducted in accordance with international standards such as ASTM B117 or ISO 9227, and the process includes sample preparation, salt spray exposure, and result evaluation.
    Heating and blade coating of gel electrolyte films for zinc-ion batteries.
    This article introduces the heating doctor-blade coating method for preparing gel electrolyte films in zinc-ion batteries. The method involves spreading a slurry onto a substrate using a doctor blade, followed by heating to evaporate the solvent and form a film.
    Uniform coating of lithium-ion battery cathode slurry on aluminum foil.
    This article primarily discusses how to uniformly coat the positive electrode slurry onto aluminum foil in lithium-ion battery manufacturing. The slurry itself exhibits shear-thinning properties, making it suitable for coating applications.
    The film coater achieves controllable coating of lithium-ion battery anode slurry on copper foil.
    This article explores how coating machines control the application process of the negative electrode slurry onto copper foil in the manufacturing of lithium-ion batteries.
    The film coater is used for experimental-grade uniform coating of lithium-ion battery cathode slurry on aluminum foil.
    This article explores the technique of uniformly coating lithium-ion battery cathode slurry on aluminum foil using a laboratory-grade coating machine.
    Heating coating machine is used for the doctor-blade coating of gel electrolyte films in zinc-ion batteries.
    This article introduces the blade coating process for preparing gel electrolyte films for zinc-ion batteries using a heated coating mechanism. By controlling parameters such as temperature, coating speed, and gap height, this method enables the fabrication of films with uniform thickness and smooth surfaces.
    BET surface area analyzer evaluates the pore structure of ion exchange resins
    This article introduces how to use a specific surface area analyzer to evaluate the pore structure of ion exchange resins.
    Automatic Potentiometric Titration for Rapid Detection of Chloride Ion Content in Cement
    This article introduces a method for rapidly detecting the chloride ion content in cement using an automatic potentiometric titrator. Excessive chloride ions can corrode steel reinforcement and affect the lifespan of concrete, making accurate detection crucial.
    Application of Automatic Potentiometric Titrator in Chloride Ion Detection in Drinking Water
    This article introduces a method for detecting chloride ions in drinking water using an automatic potentiometric titrator. The principle involves allowing chloride ions in the water sample to react with silver nitrate to form a precipitate. The instrument monitors changes in potential through an electrode, automatically determines the endpoint of the reaction, and calculates the chloride ion content.
    Total Chlorine Content Microcoulometric Titration Detector for Pulp
    This article introduces a method for detecting the total chlorine content in pulp using a microcoulometric titrator. The principle involves generating a titrant through electrolysis, which reacts with chloride ions produced from the combustion of the sample. The chlorine content is accurately calculated by monitoring the amount of electricity consumed.
    Use of Muffle Furnace for Ash Determination in Pulp Inorganic Matter Testing
    This article introduces the application of the ash determination muffle furnace in the detection of inorganic substances in pulp. The muffle furnace removes organic matter in the sample through high-temperature combustion, and the remaining inorganic residue, known as ash, is used to analyze the content of fillers and metal ions in the pulp.
    Conductivity meter measures the conductivity of water extract from pulp.
    This article introduces the method of measuring the electrical conductivity of pulp water extracts using a conductivity meter. Electrical conductivity reflects the content of soluble ions in pulp, which is used to evaluate washing effectiveness and the impact of water quality.
    Conductivity meter detects ion impurity content in coatings.
    This article introduces the method of using a conductivity meter to detect the content of ionic impurities in coatings. The principle involves measuring the conductivity of the coating solution to indirectly assess the total amount of ionic impurities, as conductivity is related to ion concentration. The detection steps include sample preparation, instrument calibration, measurement, and data analysis.
    Application of Spectrophotometry in Heavy Metal Detection
    A spectrophotometer detects heavy metal concentrations by utilizing the absorption of light at specific wavelengths by substances, following the principle of the Lambert-Beer law. During detection, heavy metal ions react with chromogenic agents to form colored complexes, and the concentration is determined by measuring absorbance and comparing it against a standard calibration curve.