Sequential Inductively Coupled Plasma Emission Spectrometer ( ICP )

Brand MesuLab
Product Category Analytical Instrument
Texture of Wood Hardware+plastic
Product Usage ICP
Model ICP2060T
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Product Details

ICP 2060T

Sequential Inductively Coupled Plasma Emission Spectrometer


Summary

ICP2060TSequentiallnductively Coupled Plasma Emission Spectrometer is designed to measure major, minor and trace elements in various samples with outstanding performance.

It was widely chosen in different industries for its superior optical resolution, high level of automation, reliable free running RF system as well as excellent analytical precision and accuracy.

ICP 2060T was widely applied in various fields ranging from rare earth, geology, metallurgy, chemistry, environmental protection, clinical medicine, petroleum products,semiconductors, foods,biological samples, criminal science, to agricultural research, etc.

Features

*Over 70 elements can be measured

*Fast analysis, 5-8 elements per minute

*Excellent detection limits, at ppb level for most elements

*Wide linear dynamic range, reaching 6 orders of magnitude, from ppb to percentage

*Lower gas consumption; Each argon gas cylinder can be used for 8 hours

Application

*Rare earth metal

*Silicon materials, magnetic materials processing industry

*Metallurgical industry: analysis of impurity elements influencing the quality of metal materials Water quality control

*Geology, mineral

*Petrochemical: measurements of more than 30 elements in crude oil

*Pharmacy, hygiene, agriculture, environmental protection, commodities and food industry

Advanced structure, optimized details make instrument accurate, stable and reliable

*Advanced optical design with a fully illuminated holographic grating, with spectral interference correction and high light throughput for improved detection limits

*Wide wavelength range:

190nm to 500nm with 3600 line grating

190nm to 800nm with 2400 line grating

*Computer controlled plasma platform optimizes the viewing position to reduce interferences, improve SNR and minimize background emissions

*Software controlled flow of carrier gas, plasma gas and auxiliary gas provide real time monitor as well as highly stability of flux

*Various types of torches, nebulizer as well as spray chamber are optional

*Choice of auto sampler greatly improves efficiency

*Sample waste drained by peristaltic pump ensures stable sample flow rate; Fast pump mode improves productivity

*The brand new robust free-running, 27.12 MHz RF generator that delivers unsurpassed performance

*Rapid and accurate automatic coupling system ensures the ultimate power transfer efficiency and stability

Humanized software design makes operation easier and simpler

One-button plasma ignitionICP2060T 7.jpg

By simply click the button 'inflame' in software , the plasma can be ignited immediately.(as figure 1)


Powerful graph diagnosis function

The 'graph diagnosis' function provides information on instrument status and analysis progress. (as figure 2)


Multi-element analysis

After selecting elements and setting measuring parameters, instrument will measure automatically with results directly displayed. (as figure 3)


Enhanced database management

The database contains several thousands of spectral line, where users can choose freely based on application method. (as figure 4)



Strong and User-friendly Software

The professional software provide excellent features and multi access to functions as follow:

Data management, quantitative and qualitative analysis, test parameter setting, one button report generation, background and interference correction, fast calibration mode, instrument status indication, and online self diagnostic.

Instrument Structure Diagram

ICP2060T 6.jpg


Specifications



Solid State Power

Electronic Measurement& Control Circuit

Frequency:27.12MHz

Photomultiplier tube specification:R212/R928

Frequency stability:<0.05%

Negativehigh voltage:(-50~-1000)V

Matching:Automatch

Circuit measuring range:(10-12~10-4)A

Output power:800W ~1600W,continuously adjustable with power efficiency more than 65%

Signal acquisition:VF conversion

Computer

Output power stability:0.05%

Lenovo PC

Induction coil:ID 25mmx3,equipped with three concentric quartz torch tubes of ED 35mm(ID:internal diameter;ED:external diameter)

Monitor:17 Inches LCD Monitor

Printer:Canon inkjet

Spray chamber:Scott double pass spray chamber

Main power supply:AC 220VCurrent:20A




Monochromator

Technical Specifications

Optical type:Czery turner

Suitable sample content range

Liquid sample:0.01ppm~several thousands ppm

Focal length:1000mm

Solid or powder sample:0.001%~70%

Resolution

0.015nm(3600 line grating)

Repeatability:short-term stability,RSD1.5%

0.030nm(2400 line grating)

Long-term stability:RSD<2%

Grating specification

huge holographic grating with 3600L/mil or 2400 L/mil and 80 mmx100mm of ruling area

Test speed:55~8elements/min

Limits of dete stection(LOD,μg/L)for typical elements:1ppb~10ppb

Wavelength range

195~500 nm for 3600 line grating

Machine Size

195~800 nm for 2400 line grating

Desktop1.5mx0.8mx0.8m



Working environment

ltem

Description

Temperature for storage and transportation

15-25

Humidity for storage and transportation

70%

Power stability

220±10V50-60Hz

Humidity

70%

Temperature

15-30




Other accessories

Windpipe

Voltage stabilizer

Gas pressure regulator

ICP 2060T power cable

Water cooling system

Copper cable for ground

Sampling system include nebulizer,spray chamber, plasma torch



Detection limits for typical elements (here λ refers to wavelength)(μg/L):

Element

λ(nm)

LOD

La

408.672

<3.0

Ce

413.765

<5.0

Pr

414.311

<5.0

Nd

401.225

<5.0

Sm

360.946

<10.0

Al

396.152

<5.0

Zr

343.823

<5.0

Ag

328.068

<3.0

Sr

407.771

<1.0

Au

242.795

<5.0

Element

λ(nm)

LOD

Eu

381.967

<1.0

Gd

342.247

<10.0

Tb

350.917

<3.0

Dy

353.170

<3.0

Ho

345.600

<3.0

Pt

265.945

<5.0

Pd

340.458

<5.0

Lr

224.268

<10.0

Rh

343.489

<10.0

Ru

240.272

<5.0

Element

λ(nm)

LOD

Er

337.271

<3.0

Tm

313.126

<3.0

Yb

369.419

<31.0

Lu

261.541

<3.0

Y

371.030

<1.0

Ba

455.403

<1.0

Cr

267.716

15.0

Sb

206.833

<15.0

Bi

223.061

10

Hg

253.652

15.0

Element

λ(nm)

LOD

Sc

335.373

<1.0

Ta

226.230

<5.0

Nb

313.340

<5.0

Mn

257.610

<3.0

Mg

279.553

<1.0

Pb

220.353

15

Ga

294.364

10

Se

203.985

10

Sn

242.949

20

Te

214.281

10.

Element

λ(nm)

LOD

B

249.773

<10.0

Zn

13.856

<3.0

Co

228.616

<3.0

Si

251.611

<103.0

Os

225.585

1

Ta

226.230

5.0

Th

283.730

10

Tl

276.787

30

Re

227.525

5

Ge

209.426

15

Element

λ(nm)

LOD

Ni

232.033

<5.0

Cd

226.502

<3.0

Fe

239.562

<3.0

Ca

393.366

<1.0

Mo

281.615

<5.0

W

207.911

10

Li

670.784

3

Na

588.995

20

K

766.490

60

Cu

324.754

<3.0

Element

λ(nm)

LOD

V

310.230

<5.0

Be

313.041

<1.0

Ti

334.941

<3.0