Introducing the Revolutionary New Microwave Plasma-Atomic Emission Spectrometer - It Runs on Air! Evrim Kilicgedik Product Specialist, Atomic Spectroscopy Agilent Technologies 22.03.2012 Page 1
2011 Start of the Atomic Spectroscopy Revolution! Agilent has launched a revolutionary new Atomic Spectroscopy instrument This instrument doesn t just redefine a category it creates a new one! No other instrument like it exists! This technique delivers: Improved performance compared with conventional flame AA Improved ease of use Lower running costs Allows unattended multi-element analysis Improved laboratory safety If you re a flame AA user, be prepared to save thousands of dollars per year Does that sound appealing??? Page 2
Common Challenges facing Laboratories doing Elemental Analysis Today Increased need for multi-element determination over a wide dynamic range Desire to reduce the overall cost of analysis due to rising costs (instrument supplies and consumables power, labor, etc) Difficulty in sourcing some gases especially in remote areas and emerging geographies Availability of suitably trained personnel to develop methods, perform sample measurement and interpret results Some laboratories under pressure to improve safety by removing flammable gases Page 3
NEW Agilent 4100 Microwave Plasma-Atomic Emission Spectrometer (MP-AES) New technique for elemental determination using atomic emission Microwave excited plasma source Nitrogen based plasma - runs on air (using a N 2 generator) oimproved performance compared with flame AA Higher sample throughput with fast sequential measurement More than 2x faster than conventional flame AA Superior detection limits and improved dynamic range oeasy to use New generation software featuring automated optimization and software applets that load a preset method One piece torch with easy torch removal and replacement no alignment oreduced operating costs Runs on air eliminates need for Acetylene, Nitrous Oxide, Argon, etc. Eliminates need for source / hollow cathode lamps Simple installation no chiller, 10 A supply oimproved Safety Eliminates need for flammable gases and cylinder handling Safe, reliable unattended multi-element overnight operation Page 4
Microwave Plasma Emission Overview Ground State Excited State Emission Monochromator & Detector Quantitation Microwave excited Plasma Sample Page 5
How Does MP-AES Work? Agilent s patented microwave waveguide technology Using nitrogen as the plasma gas (a diatomic gas) gives a robust plasma with a conventional torch. Nitrogen can be supplied either via bottled gas or nitrogen generator Magnetic excitation gives a toroidal plasma and an effective central zone for sample injection The microwave magnetically excited nitrogen plasma Provides a robust, high temperature source in conventional torches (approx. 5000 K) A cooler central channel suitable for sample atomization Creates high intensity atomization emission lines Page 6
Performance Comparison Typical Detection Limits DL s in ppb, clean water samples Element Flame AA MP-AES K 0.8 0.65 Ca 0.4 0.05 Mg 0.3 0.12 Na 0.3 0.12 Au 5 1.8 Pt 76 4.5 Pd 15 3.8 Ag 1.7 0.5 Rh 4 0.5 Element Flame AA MP-AES As* 60 45 Cd 1.5 1.4 Cr 5 0.5 Mn 1.0 0.25 Pb 14 4.4 Sb 37 12 Se* 500 70 Zn 1.6 2.8 * 30 second integration time used for As and Se 3 sigma DLs using a 10 second integration time with dewar nitrogen Page 7
Au Extended Calibration Range MP - Normal AA range MP - Extended Range Page 8
Page 9 Simple Torch Installation No Alignment
New Generation MP Expert Software Windows 7, worksheet based software Fresh, clean look Provides capability for applet style operation using preset methods, or access to full capabilities Innovative and simple to use background correction Automated optimization tools Page 10
New Generation MP Expert Software Retains familiar worksheet based approach Spectra Results matrix Calibration Replicate data Page 11
Typical Instrument Operating Parameters Instrument Parameter Setting Nebulizer pressure Pump speed Pump tubing Integration time No. of replicates 3 Sample uptake delay Stabilization time Fast Pump during Uptake Viewing position Sampling mode Background correction 140-240 kpa (optimize per element) 15 rpm White-white (sample) Blue-blue (waste) 3-5 sec for most samples; 20-30 sec at DL levels 15 sec (typical) 10 sec On (80 rpm) -10 to +10 (optimize per element) Manual or Auto sampling Auto or FLIC Page 12
Optical Diagram Detector Pre-optics Monochromator Cassette style Torch Page 14
Accessory Options for the 4100 MP-AES Automate and simplify analysis with the SPS3 autosampler (required for unattended overnight operation) For organic applications, use the EGCM to bleed air into the plasma minimizing C build-up and reducing background also requires the OneNeb inert nebulizer (included with the Organics kit) For low ppb level detection of As, Se or Hg, use the Multimode Sample Introduction System (MSIS) also requires the 5 channel peristaltic pump option Page 16
Technique Comparison: MP-AES and Flame AA Page 17
Reduced Cost of Ownership Cost savings based on reductions in gas expenses ONLY!. Assumes measuring 9 elements (4 nitrous-oxide elements) in batches of 100 samples, 3 days/week using the N 2 generator. For a detailed cost comparison, consult your local Agilent representative Page 18
Newmont's Carlin Lab AA Consumable Costs vs MP-AES* * Acknowledgement John Borland, Newmont Mining Corporation Page 19
Key Customer Benefits Higher Performance Ideal flame AA alternative Handles major, minor & most trace levels Matrix handling to match flame AA Lower Cost of Ownership Runs on air Multi-element unattended operation Moderate sample throughput Faster Measurement & Easy Operation Fast sequential measurement Simultaneous background correction New generation software Plug & Play torch Safer Laboratory Operation No flammable gases Unattended multielement operation Page 20
Page 21 Market Application Examples
Geochemical, Metals and Mining Applications Page 26
Gold and Precious Metals by Fire Assay Au, Pt and Pd extracted into a silver sphere Page 27
Traditional Off-Peak Correction for Ag in Digest Limitations with Off-Peak Correction Correction points must be set manually Susceptible to spectral interferences Is this the best correction point for this matrix? Page 28
Better Alternative - Use Auto Correction Auto background correction uses the spectrum around the peak of interest to create: 1. Models of the background (the blank) and the analyte (the standards) these are created during calibration 2. For every sample the amount of blank model and the amount of analyte model in the spectrum is calculated 3. Once the amount of analyte is known, the corrected concentration can be determined Page 29
Auto Correction for Ag in Digest Accurate model of the sloping background from the partial peak overlap Blank Spectrum Standard Spectrum Page 30
Auto Correction Improves Detection Limits Element Wavelength (nm) DL with Auto Correction (ppb) DL with Off-Peak Correction (ppb) Ag 328.068 0.5 1.4 Zn 213.857 1.7 5.5 Mn 403.076 0.2 0.3 Mn 257.610 0.6 2.8 Cu 324.754 0.2 0.2 K 766.491 1.1 1.2 As 193.759 55 125 And it s easier to use! No method development No correction points to select Page 31
Accuracy Gold in Custom CRMs* CRM Certified value (mg/l) MP-AES result (mg/l) 1 19.8 19.3 2 7.9 7.4 3 23.1 22.7 4 5.6 5.7 5 57.8 55.3 6 3.1 3.3 7 35.9 35.4 8 8.4 8.9 * These custom CRMs were professionally prepared from solid ore samples and certified through a round robin test process Page 32
Accuracy Platinum & Palladium in Custom CRMs Platinum CRM Certified value (mg/l) MP-AES result (mg/l) 6 0.74 0.75 7 35.6 35.9 8 9.0 9.5 Palladium CRM Certified value (mg/l) MP-AES result (mg/l) 6 3.21 3.4 7 44.4 44.0 8 35.0 36.5 Page 33
Chemical and Petrochemical Applications Page 34
Organics - External Gas Control Module (EGCM) 1. Prevents carbon build up on the injector when running organics 2. Reduces the background emissions from the plasma 3. A controlled flow of air is bled into the Auxiliary gas flow through the torch Page 35
For Challenging Applications OneNeb Nebulizer Robust PFA and PEEK construction Inert - resistant to strong acids such as HF Resistant to breakage Molded plastic design provides improved nebulizer to nebulizer reproducibility Constant diameter narrow bore tubing through to nebulizer tip Ideal for high solids/particulates Improved tolerance to high TDS samples Narrow aerosol size distribution provides improved precision Handles a wide flow range from 0.1 to 2 ml/min. No sensitivity loss at low flow rates Page 38
Principle of Operation Inert OneNeb Nebulizer Tip geometry dimensioned to allow carrier gas to mix with the sample Turbulent mixing of liquid and gas occurs Produces aerosol with a narrow size distribution range Droplets mixed into gas flow No area of low pressure Unique Flow Blurring action increases nebulization efficiency Greater efficiency than conventional concentric nebulizer Improved sensitivity Inert OneNeb nebulizer Conventional concentric nebulizer Page 39
Instrument Parameters Parameter Setting Nebulizer Inert OneNeb Spray chamber Double-pass glass cyclonic Sample tubing Orange/green solvent resistant Waste tubing Blue/blue solvent resistant Read Time 3 s Replicates 3 Stabilization time 15 s Rinse time 45 s Fast Pump (80 rpm) On Background correction Auto Pump speed 5 rpm Page 40
Standard and Sample Preparation Wear metals and contaminants 1:10 dilution with Shellsol Additives 1:100 dilution with Shellsol Standards Prepared from 500 ppm S21 (Conostan) All matrix matched with blank oil for constant viscosity Page 41
Measured Results for SRM 1085b Wear Metals Great recoveries for all key elements Page 42
Measured Recoveries on 10 ppm Spike of Gear Oil Great recoveries for all key elements Page 43
Measured Results for Additive Elements Measured Results vs Certified Values Element Measured (mg/kg) Certified (mg/kg) Recovery % P 213.618 301.5 ± 0.1 299.9 ± 7.2 101 Zn 481.053 314.9 ± 0.3 296.8 ± 6.8 106 Mg 285.213 300.6 ± 0.2 297.3 ± 4.1 101 Ca 422.673 279.6 ± 0.1 298 94 Ba 614.171 281.2 ± 0.1 300.1 ± 2.4 94 Measured Recoveries on 10 ppm Spike of Gear Oil Element Mixed Gear (ppm) Spike (ppm) Recovery % P 213.618 17.16 26.71 95 Zn 481.053 6.99 17.17 101 Mg 285.213 1.53 11.32 97 Ca 422.673 8.89 19.69 107 Ba 614.171 0.00 9.16 91 Page 44
Organics Long Term Stability 10 ppm S21. All lines show precision <1% RSD. Page 45
Food and Agricultural Applications Page 46
Measured Results for CRM Food Samples NIES No. 10c Rice Flour High Purity Stds CRM Wheat Flour * Reference values only Page 47
Wide Dynamic Range Page 48
Soil Analysis - Background and Interference Correction Used Analyte Wavelength (nm) Background Correction Al 396.152 Auto As 234.984 FLIC Cr 425.433 Auto Cu 510.554 Auto Fe 259.940 Auto Mn 259.372 Auto Ni 341.476 Auto Pb 405.781 Auto Zn 472.215 Auto Page 49
Fast Linear Interference Correction (FLIC) FLIC uses models of the blank, standard and potential interferent elements to correct for spectral interferences Page 50
FLIC Performance Example Fe Interference on As As concentration in the presence of 1,000 ppm Fe is <IDL when using FLIC Using Auto Using FLIC Page 51
Measured Results for NIST SRM 2711 Montana Soil Analyte MP-AES Results NIST Reference Average (mg/kg) Range (mg/kg) Al 20000 ± 200 12000-23000 As 90 ± 15 88-110 Cr 21 ± 3 15-25 Cu 90 ± 1 91-110 Fe 23000 ± 2000 17000-26000 Mn 600 ± 10 400-620 Ni 17 ± 3 14-20 Pb 1400 ± 30 930-1500 Zn 300 ± 10 290-340 Page 52
Improving Detection Limits for As, Se and Hg with MSIS Analyte Conventional Nebulization µg/l MSIS in Simultaneous Mode µg/l As 90 1.0 Se 126 2.0 Hg 14 0.5 Page 53
Comments from Early Adaptor Seed Sites Newmont Mining Corporation, USA With the MP-AES instrument Agilent seems to have hit a homerun for both gold analysis and base metal analysis. It provides superior detection limits and vastly expanded calibration range this enables quick easy analysis at trace levels as well as eliminates the need for time consuming dilutions of higher grade samples. All of this at an affordable price of well below that of ICP and only slightly higher than top of the line AA units. Bobby Joe Reichel Newmont Mining Corporation Sachsenforst, Germany The results for our aqua regia soil extract samples are convincing, and those results are in very good agreement with the round robin, which was performed Europe wide on those samples. Frank Symossek Sachsenforst CERA Laboratory, India We are using MP-AES instrument for last couple of months, and we found instrument is best to detect trace metals compare to AAS. In AAS sensitivity for B and P is very poor and fuel cost is very high, whereas using the MP-AES, sensitivity is very, very good and fuel cost is very low. In AAS, with elements like Al, Ca, Mo,Ti, V, Si etc, it consumes high quantities of Acetylene and Nitrous Oxide gas, and is very tricky - whereas using the MP-AES, it is very easy to detect. There is also no need to change Hollow Cathode Lamps which is time consuming and costly. S.S. Mhatre CERA Laboratory Page 54
Agilent 4100 MP-AES Runs on air the most significant advance in atomic spectroscopy o o o Lowest running cost of any atomic spectroscopy technique due to capability to run on air ideal for remote and at site operation Improved safety capability to run on air means no flammable gases and no manual handling of cylinders Easy-to-use software with MP applets and plug and play torch which simplify operation and maximize uptime osuperior performance to flame AA, with capability to run unattended overnight Page 55
Questions? Agilent MP-AES The Market Leaders in Atomic Spectroscopy Page 56