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(& aft> J. Flow Injection Anal., Vol. 15, No. 2 (1998)
9 % ~ U - I C & ( T ~ ~ B W ^ ~ W ~ ~ - ~ W X ~ ~ > Ma^mffl
Effect of Ligand on Potentiometry and Its Application to Row-injection Analysis
Takuji KAWASHIMA, Norio TESHIMA* and Hideyuld KATSUMATA
Laboratory of Analytical Chemistry, Department of Chemistry, University of Tsukuba, Tsukuba 305-8571, Japan
The redox potential of a system involving metal ions has been modified by the complexation
of metal ions with a suitable ligand. This phenomenon has a potential capacity for the development
of novel redox systems, which are applicable to quantitative analyses. Some potentiometric
titrations of metal ions in the presence of suitable ligand are presented. Development of new types
of spectrophotometric determinations of metal ions and complexing agents is also possible by using
novel redox systems based on the ligand effect. Applications to estimation of complexing capacity
in natural water and to catalytic method for copper(I1) are also discussed. Furthermore, a new
potentiometric flow titration has been presented based on the relationship of the flow rates between
titrant and sample solutions.
'present address: Department of Applied Chemistry, Aichi Institute of Technology, Toyota 470- 0392, Japan
Fig
and (a):
0 0.5 1.0 1.5 2.0
0 2 4 0 2 4 6 [Fe(Il)l/ [V(V)l Fig. 2 Effect of zinc(I1)-EDTA ligand
PH PH buffer on the titration curves of vanadium . 1 Effect of pH on the potentials of the equimolar mixtures of iron(III) (IV) w i ~ h iron(I1) at pH 3.4. (o), none; iron(11) (0) and vanadium(V) and vanadium(1v) ( e ) (bolh 1 x l o - ' ~ ) .
cEmA = , ,0-2M; cEDTA CEDTA, 1 X IO^M; Czn, 2 X ~o^M. (b): Cphen, 1 X 1 0 2 M . = 1 X ~ O ^ M and Czndi) = 2 X 1 0 2 M .
1000
~ ~ i ~ l ~ i ~ ~ = o l o a ~ a f e t t ~ ~ . t i ~ - ~ ~ ; ~ : Ã ˆ < ~ ; t:igbT% 9, 31W b(~ l )@^fbETOSl ; !^Ki i f rLa 800
IA. -I ftu Cr(VI)/Cr(lII)Ã (I? = 1.33 V) , V(V)/V(IV)% 6m
(£ = 1.00 V) %&I$ CO(III)/CO(II)% (IT = 1.89 V) W > M 7 1 ; % 4 3 A  ¥ b $3 b i TÂ¥S 5. Z i: TO CO(III)/CO(II) 5 ^(DW@&T%%f$ L, phen ^3 2 , ~ - W 1J 3 >(bpy)
ID
( ^ l ^ - ^ - C m L k t h Z 3 , phen S/tà bpy Ul$k@T 200
T9 U A ( V I ) ~ ~ H A W ~ ^ ( V ) I Z & S 3A)b b(11)Ql@<b
s . ~ i - ? n a m ~ ~ ~ ^ , ZI w b (II)Q~@{&^M"JE <1: O o 0.5 1.0 1.5 2.0
t k. Fig. 3 ~ : ~ u A ( V I ) ~ ~ - S ; ~ A ) ~ ^ ( I I ) U ~ ~ W J S-T T. ^c~(vI) ' ' ~ 0 ~ 1 )
Fig. 3 Effect of phen on the titration curves of cobaltm with . . cfaroinium(V1) at pH 1. Concentration of phen (M): (Q), 0; (o), 2.5 x 10'"'.
i~zatm:rnÂ¥fr-r z --k. a m , 7 ~ . ( 9 ) ~ ( 1 0 ) t ( ~ ~ ~ ~ e & ~ e ~  ¥ f r ZZI: r). X/\')I/ h ( I I ) i ~ t t  ¥ 4 D A ( v I ) & B ( I I I ) W ^ W W ^ W ^ P . Tab%,
pH 1 @%fr-FT phen ??$@F2-@7fl UA(V1) i ^ ( I I I ) ~ - & % % ~ ~ , 3 IW b(11)l%@B%
S^TTS&. *Â¥rS(g)t::ZTKW@frL 9 u~(v~)$!&%fcJ;~ i , ? Cia¤ W S Y W h ( n ) % W % H r F T S k , @ ( i i i ) W K S 9 ' < % 2 i ^ ; W W t i 5 . 3fs W , ~ ^ % ~ ~ D ~ R A ~ ' ~ ~ U A < ~ ~ U I ;  £ S ~ S H $ ~ ~
-3 c~( . Iv) /c~(I I~)% @@%@<bilZlg{&M 1.61 v 2iS < , 3k-k 11 9&(1v)flSZE W c w O a ^ m ' t z ^(III)T& 9 g i J % & W ~ M , -k 1J 9 L(IV)HP&fb%E
W L - C B ~ ~ M M O . L @ L O S % , ZOIIZ'J 9&fSZ%=lA)l/ b ( I I ) ~ @ k r ^
fcJ'T5 il r?~OT"Jil^i% 5. (h il W , Co(III)/Co(II)%@ll$f?? phen @ # G T T E
TW2S ii i. W~JfflT#~tf, w^^(~v)iztb 5 -1)~:v ~ ( I I ) ~ @ < ~ % Z ^ ~ B J E T $ 3 -k .
4.1 T m f e 2 3 D ? i & % % l ~ ; b - & 5 2, B(I1) 2 l X ~ Y ~ ( I v ) ~ M I ^ f i ~ W Z c ! ~ T S S 18). Z ( S ) & ( l l ) @ S ~ ~ ~ l J f f l T S fcDT<fcSS, O T K M 4 % - T . 3, (5)fc%TCTÈW97b >@&D#GTTU, E6D7c@4~ 1 R^EZT-5:^, 1- '1 3@??1 Wft\BÇ#GS-tt i-B+Â¥h^t~_@frL -ZS(II)K%TTOH, H H D ~ > a^.n%GTTB-^fifcE^TTEJ. TOM, %7?97~4 ~&Ol%GTTW';^L (1v)D^, % ? f i n 4 >k;iL! >@@;^TTB(~~)&W':^~(iv)@gfigm,  ¥ .  ¥ ^ ^ ( D ^ W W & ^ M ^ ^ ^ ^
3.2 TZefeeb 5 I:, Fe(III)/Fe(II)%QlmTO phen D%7?TT^# L, @(111)a@{bh ^WcTS. -3, 1'1 >@%%G$-t±&(':@%D?fiB{&TL ?lZ;WW:TS. Z
h'3 2 @ D E & m % m H A ???iEjiffi b, rnfciSTC% V(V)/V(IV)O^~@ZB&$M% ~ 7 : 19.20) - $ ? % D ~ u - ~ X T ^ Z ? Fig. 4(a)l:, 77 !J>mDWi^¤ Fig. 4(b) I:%
20X 10-6 mol dm-3 [V"]
Fig. 4 Flow diagram of FIA for the simultaneous determination of vauadiumflV) and vanadium(V) a) and the
Fig. 5 Typical flow signals for the simultaneous determination of synthetic mixtures of vanadumffV) and vanadum(V).
successive merging profile of the sample solution ( V P ) + V(V)) with the iron(U,IlI), phen and dphosphale solutions b).
Wg^ V(V)^ v ( I v ) ~ ^ ~ ^ ^ T ^ % : ~ ~ ~ : ~ U -A^->£Fig 5 l ~ Z - r . -7D?%&-l^%W';^A ( ~ v ) l z f f i % T S i E e-9, W-:^A(v)fc% %TZiW -/7^^ < -5 z bAfT^-5.
Sfeil~%%?SI??F&R LT, ~ ( 1 1 1 ) / 5 ' D ~ ( V 1 ) Â £ ^ ( I I I ) / W ^ ' ^ ~ ) W I S I I ^ S ' & ~ J ~ ~ T ^ 5 21). 74- 72;b%, phen %fiTT^;(7)WEK&fTb-&&&TS% (11)-phen @@a%X@DOT@ %$%(III)DZ~ (iE fc'-9) %, -;^(4)3/tH;(8)@meIlJ >W?rFTit3@
1 1 ) >@(TI r-HA ?ik%?@is Lft. %S-f !>EÑà ["I O.OSM(pH5.6) $>mgss-rn^k^a^, 7)~-
A(III)^~^(II)% Em < (O52JS-r ¥ 2 1
LWBCDHWBEUZ. zna, a
SU M ^ f W J S . w w ( I I ) ? i i z' ^m-r-f>LE^w^^.^^, AD ^W ;btL-5 fe(OTS-5. Fig. 7 Flow diagram of r-FIA for the determination
of complexing agents.
4.4 ^MWB<orn
ng ml-l kwmla( ' Fig. 9 How diagram of H A for the determination of copper(I1). W & % o w^*B*'=?o^(n)
RT (ml min"') x CT (M) cs (MI =
Rs (rnl m i n ) (13)
Fig. 10 Row diagram of the flow titration of iron(I1) with ceriurn(1V) and of chromium(V1) with ironf11). S. sample solution; R. titrant
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(Received November 28, 1998)
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