孫毓璋 國立清華大學 icp-oes/icp-ms 分析技術與應用 t race a nalysis
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孫毓璋國立清華大學
ICP-OES/ICP-MS 分析技術與應用
Trace Analysis
Biogeochemical Cycle of Trace Elements
Atmosphere
Lithosphere
Hydrosphere
Distribution of Trace Elements
Plant Toxic Effects
長芒扁雀麥 (Bromus carinatus)
O'Dell, Silk et.al. 2007
Bioaccumulation of Mercury in Aquatic Food Chain
The fate of trace elements
Environmental Fate Biological Fate
Absorption
Distribution
Transformation
Excretion
Possible Forms of Trace Possible Forms of Trace Elements Elements
Simple ionic species
Differing valency
states
Weak complexes
Adsorbed on colloid
Lipid-soluble
complexes
Organometallic
species
Particulate
Zn(H2O)6+2
As(III), As(V)
Cu-fulvic acid
Cu-Fe(OH)3-humic acid
CH3HgCl
CH3AsO(OH)2
metal adsorbed onto or contained
within clay particles
The nature of spectrometric measurement
Characteristic-photon Characteristic-ion
Cu0 Cu+
Elemental analysis techniques
Analytical ProcedureAnalytical Procedure
Sample Weigh and Decomposition
Sample introductionMeasurement
UrineWhole blood Geological samples
Sea water
Zn,Cd,Pb,Cu
103~10 - 1μg/L
Zn,Cd,Pb,Cu…
103~10 - 1μg/L
Zn,Cd,Pb,Cu…
105~101μg/kg
Zn,Cd,Pb,Cu…
100~10 - 2μg/LTrace
elements
Na, K, Ca, Mg, FeNa, K, Ca, Mg, Fe
0.1~10%0.1~10%
Na, K, Ca, Mg, FeNa, K, Ca, Mg, Fe
0.1 ~10%0.1 ~10%
Fe, Si, Mn, AlFe, Si, Mn, Al
1~30%1~30%
Na, K, Ca, MgNa, K, Ca, Mg
1~10%1~10%
Major composition
Biological samplesEnvironmental samples
Complex MatrixComplex MatrixComplex MatrixComplex Matrix
Environmental Samples•Sea Water•Geological Samples
Environmental Samples•Sea Water•Geological Samples
Industrial Material• High Purity Metals
• Organics
Industrial Material• High Purity Metals
• Organics
Biological Samples•Bontanical Samples•Clinical Samples
Biological Samples•Bontanical Samples•Clinical Samples
Trends and Problems in Trace Element Analysis
Trends
Problems
Ultratrace analysis (in bulk/micro samples)
Micro-distribution
Speciation
In-vivo/In-Situ/ Continuous
Extremely Complex Matrix
- Preconcentration
- Separation
Reliability (Systematic error)
Stability
AAS vs ICPs
6000-8000oC
1200-3000oC
1700-2800oC
Ionization/Atomization
Ionization/Atomization
Ionization/Atomization
ICPs
ETAAS
FAAS
感應耦合電漿
感應耦合電漿反應機制
+
Photon emission(atomic lines)
Photon emission(ionic lines)
excitation source
particle molecule atom ion
liquid sample solid sample
nebulization
introduction of solid sample
aerosol
desolvation
vaporization excitationdissociation
excitationionization
Ionization Potential
Ionization potential , eV
110
100
90
80
70
60
50
40
30
20
10
0
Se(9.7524)
As(9.7886)
Te(9.0096)
Pb(7.4167)
Sb(8.6084)
Zn(9.3942)
Cd(8.9938)
Cl(12.9676)
S(10.3600)
I(10.4513) Ar
(15.7596)
Cs(3.8939)
Na(5.1391)
Ca(6.1132)
Cr(6.7665)
Mo(7.0924)
Cu(7.7264)
Cd(8.9938)
Ion
izat
ion
eff
icie
ncy
, %
Ionization efficiency of different elements in ICP
Sensitivity
How do they work?
ICP/ optical emissionspectrum of 100 ppm Cerium solution
ICP/ mass spectrumof 10 ppm Cerium
Ce emission
140Ce+
plasma continuum
Spectra obtained by ICP-OES and ICP-MS
Comparison of Detection limits
Table 26-4
Concept-Revolution in ICP-OESConcept-Revolution in ICP-OES
Coventional conceptCoventional concept ICP is an ideal spectrochemical
excitation source that is free from matrix interferences on the analytical line intensity.
Realistic viewRealistic view Different matrix give very complicated
interference on the analytical line intensity
Coventional conceptCoventional concept ICP is an ideal spectrochemical
excitation source that is free from matrix interferences on the analytical line intensity.
Realistic viewRealistic view Different matrix give very complicated
interference on the analytical line intensity
Spectral interferences
54.93494 56.96284
55Fe+:55.93494
111Cd++:55.45209112Cd++:55.95134112Sn++:55.9524140Ar16O+:55.9572940Ca16O+:55.95750113In++:56.45203113Cd++:56.45220
Quadrupole resolution
55.92905 56.96873
ICP-MS ICP-OES―Isobaric―Polyatomic ion ―Matrix-induced molecular species―Doubly charged
―Baseline elevation―Peak overlap
Resolution=10000
Atomization, Excitation and Ionization mechanism in Atomization, Excitation and Ionization mechanism in ICPsICPs
MX
M
M+
M(H2O)m+, X-
Solution
Desolvation
Solid
vaporization
Gas
atomization
Atom
ionization
Ion
(MX)n
excitation
M* hυ
M* hυexcitation
IP
EP
EP
Ionic line=IP+EP
Atomic line=EP
Without MatrixWith Matrix
Non-spectral interferences
待分析元素:鋅
40
50
60
70
80
90
100
110
120
200 400 600
[Matrix element], mg/L
Re
lativ
e s
ign
al,
%
Na
Ca
Fe
Mn
Al
基質元素
Matrix effects on the analytical recoveryMatrix effects on the analytical recovery
CFN-Axially viewed ICP
Energy sum, eV
7.5 9.5 11.5 13.5 15.5 17.5
Al
Mn
Fe
Na
CaRecovery
, arb
itra
ry u
nit
Analytical results of soil leachate
5倍稀釋
0
20
40
60
80
100
120
Be V Cr Co Ni Cu Zn Ga As Se Mo Cd In Sb Cs W Au Hg Tl Pb
Rec
ove
ry,
%
10倍稀釋
0
20
40
60
80
100
120
Be V Cr Co Ni Cu Zn Ga As Se Mo Cd In Sb Cs Ba W Au Hg Tl Pb
Rec
over
y, %
Matrix dilution Internal standard Isotope dilution Standard Addition
Matrix effect vs Ionization Potential
+
Analyte
+matrix
e-
Ar+
Ar2+
Ar+ Ar + 15.75 ev
Ar* Ar + 11.50 or 11.67 ev
Ar2* 2Ar + 10.2 ev
Ar2+ 2Ar +14.03 ev
e- Ar+ Ar2+
Matrix+
Internal StandardizationInternal Standardization
Energy sum, eV
14.03 eV 15.40 eV
Internal standard 1
Internal standard 2
Rec
ove
ry,
%
Analytical results of spiked native soil sample
Analyte Analytical line, nm Energy sum, eV Recovery, % Corrected recovery, %
Sc* 361.384 9.99 95 108
V* 292.402 11.37 102 116
V* 310.230 12.76 100 113
Cr* 205.552 12.8 102 116
Ni# 231.604 14.03 68 99
Cd# 226.502 14.46 76 110
Cd# 214.438 14.77 71 103
Pb# 220.353 14.79 83 110
Zn# 202.548 15.51 76 109
Cu# 224.700 15.96 72 104
Soil Order: Vertisols Spike concentration = 1 mg L -1
* Internal standard = Mo (204.598 nm; energy sum=13.16 eV)# Internal standard = Ir (224.268 nm; energy sum=14.53 eV)
J. Anal. At. Spectrom., 2003, 18, 1163–1170
Analytical results of BCR 141R soil sample
* Internal standard = Mo (204.598 nm; energy sum=13.16 eV)
# Internal standard = Ir (224.268 nm; energy sum=14.53 eV)
Analyte Analytical line, nm Energy sum, eV Recovery, % Corrected recovery, %
Cr* 205.552 12.8 82 95
Ni# 231.604 14.03 69 89
Cd# 214.438 14.77 74 96
Pb# 220.353 14.79 83 108
Zn# 202.548 15.51 68 88
Cu# 224.700 15.51 68 88
J. Anal. At. Spectrom., 2003, 18, 1163–1170
Main Topics in Countercurrent
Analytical Chemistry
New instrumentation
New principle
MiniaturizationAutomization
Bio-chip Micro-fluidic
Chemometrice
On-line analytical system
In-situanalysis
Real-timeanalysis
In-vivomonitoring
Interfacingtechnique
Separation computerization Hyphenation
SensorSingle cellanalysis
Non-destructiveanalysis
Chemicalimagining
Macro-moleculeidentification
Surfaceanalysis
Processanalysis
Environmental &Biological analysis
Arsenic: Evil or Angel?
Napoleon
Arsenic-induced hyperkeratosis
Black foot disease
Poison Acute promyeloid leukemia
Analytical Natural of ICP-MS
Arsenite
Arsenate
Monomethylarsenic
Dimethylarsenic . . .
As+
[M]
Sig
na
lAnalytein 0.5% HNO3
Analytein seawater
GC-ICP-MS: A very sensitive hyphenated system for speciation analysis
http://www.speciation.net/index.html?PHPSESSID=53bca5e65a5918efcd740ec68ab61d97
J. Anal. At. Spectrom., 2008, 23, 861–870
LC-ICP-MS: The most often used hyphenated system for speciation analysis
http://www.speciation.net/index.html?PHPSESSID=53bca5e65a5918efcd740ec68ab61d97
Journal of Chromatography A, 1176 (2007) 143–148
36
Still to be Answered : What cause brain damage in acute ischemic stroke and traumatic stress?
36
In light of the recent observation of stress-related breaks in the blood-brain barrier, the mechanism of metal ion accumulation in the brain should be re-evaluated.
Nature, 1998; 393: 373.
Arch Intern Med 2000;160:3196.
Generalized model of cellular metal ion homeostasis
…in situ studies of cellular metal ion accumulation, trafficking, efflux, and function or toxicity with spatial, temporal and oxidation-state fidelity. …make significant contributions to our understanding of metal ion homeostasis in health and disease.
Nature Chemical Biology 4, 168 - 175 (2008)
Blood flow
Capillary
Extracellular space
J. Anal. At. Spectrom., 2008, 23, 1275–1280
C, Cu and Zn distribution in a cross section of rat brain sample
In-vivo sampling technique – Microdialysis
Cu copper
Al Mn Manganese
Zn zinc
PbLead
FeIron
Menkes' syndrome Wilson's disease
0.9% NaCl
40
Challenges: Trace Amount and Small Volume
Low analyte concentration
10-1 g/L < [Mn+] < 102 g/L
Limited sample volume
Sampling rate=0.5-1 L/min
Sample volume=10 L/20 min
Sensitivity
1 g/L×10 L= 10 ×10-12 g
Selectivity
Normal saline=0.9% NaCl
Target anionic and cationic species
Robustness
12 h continuous monitoring
Blank control
0.9% NaCl
85807570656055504540353025201510510 0
10 1
10 2
10 3
10 4
10 5
10 6
10 7
10 8
10 9
10 10
Mass
ion
sign
al /
cps
O+ Ar+ArH+
ArO+Ar2
+
40
End-determination(ICP-MS)
In vivo monitoring
Microdialysis sampling
On-line desalting(Electrodialyzer)
Microdialysis-On-line desalter-ICP-MS Hyphenated System
Purewater
Anal. Chem. 2007, 79, 8900-8910
42
Simultaneous determination of mercury and selenium in urine by on-line Desalter-ICP-MS system
0
20
40
60
80
100
120
0 0.1 1 2.5 5 10 20
EDTA conc.(mg/L)
reco
very
(%)
Hg
Na+
(EDTA-Hg)-
SeO42-
Hg2+
+EDTA-
Na+
SeO42-
Hg2+
-
+
0
20
40
60
80
100
120
0 0.1 1 2.5 5 10
EDTA conc. (mg/L)
reco
very
(%)
Se 4+Element Certified Found Recovery
Hg (a) 48 ppb 42.4 ± 3.8 ppb 88.3 %
Se (b) 59±5 ppb 59.69±2.4 ppb 101.2 %
(a) SeronormTM Trace Elements Urine(b) NIST CRM No. 18 Human Urine
Removal efficiency of Na+ ion and Recovery of analyte ions
sample solution = 0.9 % NaCl, 650mM NH4Cl pH= 8
元素 / 質量數 回收率 (%)
Zn 66 99.5
Cd 114 99.8
Pb 208 102.5
Cu 65 104.7
Mn 55 93.5
Co59 103.7
Ni 60 105.820
1613
107
4
1
0.5
0.10
20
40
60
80
100
120
Na(%
)去
除效
率
44
Antagonistic effect between Cadmium and Selenium?
44
0
5
10
15
20
25
30
35
40
0 50 100 150 200 250 300 350
0
500
1000
1500
2000
2500
3000
Se
Cd
Time course, min
[Se], u
g/L
[Cd], u
g/L
Cd injection
Injection dose : 0.8 mg Cd2+/Kg body weight
To Desalter-ICP-MSCd solution
46
How about the permeability of blood-brain barrier ?
46
矽統科技研發部資深經理林廷鴻 ,原本脾氣又壞又暴躁,但去年底出車禍腦部重創,昏迷指數只剩 3 ,竟奇蹟似的醒來,最難能可貴的是,他從暴躁嚴肅的科技人性格,變成把愛掛在嘴邊的好男人,就連太太都說,這真的是「天上掉下來的禮物」。
車禍「洗腦」 大男人變好男人
2007.06.19
47
Causation of the adverse Effects of Cisplatin?
Cisplatin- Used to treat testis cancer
Nausea/vomiting
Kidney damage
Decreased hearing
Decreased sensation
47
48
The Time Course of Mn and Pt in the ECF of the Rat Brain after Intraperitoneal Administration
100 mg MnCl2/kg body weight
2 mg cisplatin/kg body weight
0.9% NaCl
49
Calcium-induced neuro-apoptosis
http://www.benbest.com/cryonics/ischemia.html
Excessive glutamate release resulting in excessive
Ca+2 entry into cells is the excitotoxicity which
initiates the brain ischemic damage seen in stroke
and cardiac arrest.
http://www.fda.gov/nctr/science/journals/text/vol5iss1/rrp0305.htm
http://www.cirp.org/library/pain/anand4/
50
Characterization of Ion Release and Uptake Events of Neural Cell of Living Rat
0
2
4
6
8
10
12
14
16
-300 -200 -100 0 100 200 300 400 500 600 700 800
T ime course, min
[Mg]
, m
g/L
I nsert MD KCl Perfusion Ringer Perfusion
Mg
0
5
10
15
20
25
30
35
-300 -200 -100 0 100 200 300 400 500 600 700 800
T ime course, min
[Ca]
, m
g /
L
Ca
Insert MD KCl Perfusion Ringer Perfusuion
Ca2+
Biol Res 37: 665-674, 2004 /
V V V
V V V
51
00.5
11.5
22.5
33.5
44.5
5
-300 -200 -100 0 100 200 300 400 500 600 700 800
Time course, min
[Mn],
ug/L
Mn
Insert MD KCl Perfusion Ringer Perfusion
Characterization of Ion Release and Uptake Events of Neural Cell of Living Rat
0
4
8
12
16
20
-300 -200 -100 0 100 200 300 400 500 600 700 800
T ime course, min
[Zn
], u
g/L
Zn
I nsert MD KCl Perfusion RingerPerfusion
0
20
40
60
80
100
-300 -200 -100 0 100 200 300 400 500 600 700 800
Time course, min
[Cu],
ug/L
Cu
I nsert MD KCl Perfusion Ringer Perfusion
V V V
V V V
V V V
Thank you for your attention !
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