4Misc_StartZ#4Platform­Á@Q9èVersionCheckè ¬xHH%.îÿîÿ7@gyÞšHHdh ¬xHH%.îÿîÿ7@gyÞšHHdh ¬x HH%.îÿîÿ7@gyÞšHHdh ^Graph*WDashSettings#úÿ  !4 4 4 4 4 4 †homeRRdÿÿÿÿC:Users:brg:Desktop:Tibi:Vörös Attila:PBPPN_cikk:_RecentWindows+3D Graphics.ihfAdvanced Topics.ihfAnalysis of Functions.ihfAnalysis.ihfAnnotations.ihfCategory Plots.ihfCommands.ihfContour Plots.ihfControls.ihfCurve Fitting.ihfData Folders.ihfDebugging.ihfDependencies.ihfDialog Help.ihfGraph0:'Rh / nm' vs pH;...Graph1:EF_PBPPN vs pHzeta_PBPPN;... 4Misc_EndZ#4XOPState_StartZ#4XOPState_EndZ#8ÿ? o¾Öéë¿¥@­=V_chisq–¬·.@1’?V_numNaNsV_numINFsV_npnts@V_nterms@V_nheldV_startRow@V_endRow@V_startColV_endColV_startLayerV_endLayerV_startChunkV_endChunkV_sigaƒœ»?€ ×?V_sigb7@j¦”¥?V_qð?V_Rab”ìWš ºï¿V_PrQÍIï¿V_r2†áàÐÖ î?V_FlagS_valuet3•Edit •Rename wave0,pH •Rename wave0,'Rh / nm' •Rename wave1,PDI •Rename wave2,'Zeta pot / mV' •Display 'Rh / nm','Zeta pot / mV' vs pH •ModifyGraph mode=3,marker('Rh / nm')=19,rgb('Rh / nm')=(52428,1,1),marker('Zeta pot / mV')=17,rgb('Zeta pot / mV')=(1,26214,0) •RemoveFromGraph 'Zeta pot / mV' •AppendToGraph/R 'Zeta pot / mV' vs pH •ModifyGraph mode=3,marker('Zeta pot / mV')=17,rgb('Zeta pot / mV')=(1,26214,0) •Label left "R\\Bh\\M / nm";DelayUpdate •Label right "ζ / mV" •ModifyGraph lblRot(right)=180;DelayUpdate •Label left "\\Z20R\\Bh\\M\\Z20 / nm";DelayUpdate •Label bottom "\\Z20pH";DelayUpdate •Label right "\\Z20ζ / mV" •ModifyGraph gfSize=20 •ModifyGraph gfSize=16 •Rename wave0,'SD-Rh / nm' •Rename wave1,'SD-zeta / nm' •ErrorBars 'Rh / nm' Y,wave=('SD-Rh / nm','SD-Rh / nm');DelayUpdate •ErrorBars 'Zeta pot / mV' Y,wave=('SD-zeta / nm','SD-zeta / nm') •ModifyGraph mode=4,lsize=1.5,lineJoin('Rh / nm')={1,0} •ModifyGraph lineJoin('Rh / nm')={1,100} •ModifyGraph lineJoin('Rh / nm')={1,2} •ModifyGraph lineJoin('Rh / nm')={0,0} •ModifyGraph lineJoin={2,10} •ModifyGraph mode=3 •CurveFit/M=2/W=0 poly 3, 'Zeta pot / mV'/X=pH/D 'fit_Zeta pot / mV'= poly(W_coef,x) W_coef={-49.307,6.0089,-0.19345} V_chisq= 7.68006;V_npnts= 8;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 7; W_sigma={3.78,1.26,0.0956} Coefficient values ± one standard deviation K0 = -49.307 ± 3.78 K1 = 6.0089 ± 1.26 K2 = -0.19345 ± 0.0956 •ModifyGraph lsize=1.5,rgb('fit_Zeta pot / mV')=(1,26214,0) •CurveFit/M=2/W=0 poly 4, 'Rh / nm'/X=pH/D 'fit_Rh / nm'= poly(W_coef,x) W_coef={77.714,11.262,-0.20887,0.065657} V_chisq= 14.5584;V_npnts= 8;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 7; W_sigma={17.8,9.4,1.53,0.0783} Coefficient values ± one standard deviation K0 = 77.714 ± 17.8 K1 = 11.262 ± 9.4 K2 = -0.20887 ± 1.53 K3 = 0.065657 ± 0.0783 •ModifyGraph lsize=1.5,rgb('fit_Rh / nm')=(52428,1,1) •RemoveFromGraph 'fit_Zeta pot / mV' •CurveFit/M=2/W=0 poly 4, 'Zeta pot / mV'/X=pH/D 'fit_Zeta pot / mV'= poly(W_coef,x) W_coef={-67.452,15.949,-1.8431,0.084596} V_chisq= 3.42911;V_npnts= 8;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 7; W_sigma={8.62,4.56,0.744,0.038} Coefficient values ± one standard deviation K0 = -67.452 ± 8.62 K1 = 15.949 ± 4.56 K2 = -1.8431 ± 0.744 K3 = 0.084596 ± 0.038 •ModifyGraph lsize=1.5,rgb('fit_Zeta pot / mV')=(1,26214,0) •SetAxis left 100,500;DelayUpdate •SetAxis right *,0 •DeletePoints 0,1, pH,'Rh / nm',PDI,'Zeta pot / mV','SD-Rh / nm','SD-zeta / nm' •RemoveFromGraph 'fit_Zeta pot / mV' •SetAxis right -100,0 •CurveFit/M=2/W=0 line, 'Zeta pot / mV'/X=pH/D 'fit_Zeta pot / mV'= W_coef[0]+W_coef[1]*x W_coef={-14.977,-0.9421} V_chisq= 8.80749;V_npnts= 7;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 6;V_q= 1;V_Rab= -0.961524; V_Pr= -0.859263;V_r2= 0.738333; W_sigma={1.83,0.251} Coefficient values ± one standard deviation a = -14.977 ± 1.83 b = -0.9421 ± 0.251 •ModifyGraph rgb('fit_Zeta pot / mV')=(1,26214,0) •ModifyGraph lsize=1.5 •SetAxis left 0,250 •RemoveFromGraph 'fit_Rh / nm' •DeletePoints 4,3, 'Rh / nm' •DeletePoints 4,3, 'SD-Rh / nm' •CurveFit/M=2/W=0 line, 'Rh / nm'/X=pH/D 'fit_Rh / nm'= W_coef[0]+W_coef[1]*x W_coef={89.407,0.32647} V_chisq= 4.08143;V_npnts= 7;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 6;V_q= 1;V_Rab= -0.961524;V_Pr= 0.649892; V_r2= 0.422359; W_sigma={1.24,0.171} Coefficient values ± one standard deviation a = 89.407 ± 1.24 b = 0.32647 ± 0.171 •ModifyGraph lsize=1.5,rgb('fit_Rh / nm')=(52428,1,1) •Legend/C/N=text0/J/F=0/A=MC "\\s('Zeta pot / mV') 'Zeta pot / mV'\r\\s('Rh / nm') 'Rh / nm'" •Legend/C/N=text0/J "\\Z22\\s('Zeta pot / mV') 'Zeta pot / mV'\r\\s('Rh / nm') 'Rh / nm'" •Legend/C/N=text0/J "\\s('Zeta pot / mV') \\Z22Zeta pot / mV\r\\Z16\\s('Rh / nm') \\Z22Rh / nm" •Legend/C/N=text0/J/B=1 •Legend/C/N=text0/J "\\s('Zeta pot / mV') \\Z22ζ / mV\r\\Z16\\s('Rh / nm') \\Z22R\\Bh\\M\\Z22 / nm" •Legend/C/N=text0/J "\\s('Zeta pot / mV') \\Z22Zeta potential\r\\Z16\\s('Rh / nm') \\Z22Hydrodynamic radius" •ModifyGraph axThick=1.5,axRGB(left)=(52428,1,1),axRGB(right)=(1,26214,0),tlblRGB(left)=(52428,1,1),tlblRGB(right)=(1,26214,0),alblRGB(left)=(52428,1,1),alblRGB(right)=(1,26214,0) •SetAxis bottom 3,11 •RemoveFromGraph 'fit_Rh / nm' •RemoveFromGraph 'fit_Zeta pot / mV' •CurveFit/M=2/W=0 line, 'Zeta pot / mV'/X=pH/D 'fit_Zeta pot / mV'= W_coef[0]+W_coef[1]*x W_coef={-15.103,-0.90566} V_chisq= 9.36637;V_npnts= 7;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 6;V_q= 1;V_Rab= -0.960949; V_Pr= -0.849546;V_r2= 0.721729; W_sigma={1.87,0.251} Coefficient values ± one standard deviation a = -15.103 ± 1.87 b = -0.90566 ± 0.251 •CurveFit/M=2/W=0 line, 'Rh / nm'/X=pH/D 'fit_Rh / nm'= W_coef[0]+W_coef[1]*x W_coef={89.31,0.33354} V_chisq= 3.77088;V_npnts= 7;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 6;V_q= 1;V_Rab= -0.960949;V_Pr= 0.682869; V_r2= 0.46631; W_sigma={1.19,0.16} Coefficient values ± one standard deviation a = 89.31 ± 1.19 b = 0.33354 ± 0.16 •Legend/C/N=text0/J "\\s('Zeta pot / mV') \\Z22Zeta potential\r\\Z16\\s('Rh / nm') \\Z22Hydrodynamic radius" •ModifyGraph lsize('fit_Rh / nm')=1.5,rgb('fit_Rh / nm')=(52428,1,1) •ModifyGraph lsize=1.5,rgb('fit_Zeta pot / mV')=(1,26214,0) •ModifyGraph minor(bottom)=1,manTick(bottom)={4,1,0,0},manMinor(bottom)={1,0};DelayUpdate •SetAxis bottom 4,11 •ModifyGraph manTick(bottom)={4,1,0,0},manMinor(bottom)={0,0} •ModifyGraph gfSize=20 •SetAxis left 0,150;DelayUpdate •SetAxis right 0,-100 •Legend/C/N=text0/J "\\Z16\\s('Zeta pot / mV') \\Z22Zeta potential\r\\Z16\\s('Rh / nm') \\Z22Hydrodynamic radius" •AppendToGraph/R/T 'Zeta pot / mV' vs pH •ModifyGraph hideTrace('Zeta pot / mV'#1)=1 •ModifyGraph tick(top)=3,noLabel(top)=1,axThick=1.5 •SavePICT/E=-5/B=72 as "pHfugg.png" •Edit as "PBPPN pH" •Rename wave0,pH_PBPPN; Rename wave1,'zeta_PBPPN / mV'; Rename wave2,'sd_zeta_PBPPN / mV'; Rename wave3,'Rh_PBPPN / nm'; Rename wave4,'sd_Rh_PBPPN / nm' •DeletePoints 2,1, pH_PBPPN •Rename pH_PBPPN,pHzeta_PBPPN •Rename wave0,pHRh_PBPPN •TextBox/C/N=text1/F=0/A=MC "PB pH dependence" •Display 'zeta_PBPPN / mV' vs pHzeta_PBPPN •Display/R 'zeta_PBPPN / mV' vs pHzeta_PBPPN •Display 'Rh_PBPPN / nm' vs pHRh_PBPPN; AppendToGraph/R 'zeta_PBPPN / mV' vs pHzeta_PBPPN •SetAxis right -5,5 •SetAxis bottom 4,10 •ErrorBars 'Rh_PBPPN / nm' Y,wave=('sd_Rh_PBPPN / nm','sd_Rh_PBPPN / nm');DelayUpdate •ErrorBars 'zeta_PBPPN / mV' Y,wave=('sd_zeta_PBPPN / mV','sd_zeta_PBPPN / mV') •SetAxis right -10,10 •ModifyGraph mode('Rh_PBPPN / nm')=4 •ModifyGraph mode=4 •K1 = 0; •CurveFit/H="01" line 'Rh / nm' /X=pH /D 'fit_Rh / nm'= W_coef[0]+W_coef[1]*x W_coef={91.692,0} V_chisq= 7.06568;V_npnts= 7;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 6;V_q= 1;V_Rab= 0;V_Pr= 0.682869;V_r2= 0; W_sigma={0.41,0} Coefficient values ± one standard deviation a = 91.692 ± 0.41 b = 0 ± 0 •K1 = 0; •CurveFit/H="01" line 'Zeta pot / mV' /X=pH /D 'fit_Zeta pot / mV'= W_coef[0]+W_coef[1]*x W_coef={-21.572,0} V_chisq= 33.6591;V_npnts= 7;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 6;V_q= 1;V_Rab= 0;V_Pr= -0.849546; V_r2= 0; W_sigma={0.895,0} Coefficient values ± one standard deviation a = -21.572 ± 0.895 b = 0 ± 0 •CurveFit line 'Zeta pot / mV' /X=pH /D 'fit_Zeta pot / mV'= W_coef[0]+W_coef[1]*x W_coef={-15.103,-0.90566} V_chisq= 9.36637;V_npnts= 7;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 6;V_q= 1;V_Rab= -0.960949; V_Pr= -0.849546;V_r2= 0.721729; W_sigma={1.87,0.251} Coefficient values ± one standard deviation a = -15.103 ± 1.87 b = -0.90566 ± 0.251 •Label right "\\K(65535,0,0)Hydrodynamic radius / mV";DelayUpdate •ModifyGraph manTick(right)={0,25,0,0},manMinor(right)={0,0};DelayUpdate •SetAxis right 0,125 •Label left "Zeta potential / mV" •ModifyGraph lblRot(left)=0,axRGB(left)=(0,0,65535),tlblRGB(left)=(0,0,65535),alblRGB(left)=(0,0,65535) •Label right "Hydrodynamic radius / mV";DelayUpdate •ModifyGraph lblRot=0,axRGB(right)=(65535,0,0),tlblRGB(right)=(65535,0,0),alblRGB(right)=(65535,0,0) •TextBox/K/N=text1 •ModifyGraph axOffset(top)=-2 •ModifyGraph mrkThick('Rh / nm')=1,rgb('Rh / nm')=(65535,0,0),useMrkStrokeRGB('Rh / nm')=1,marker('Zeta pot / mV')=16,mrkThick('Zeta pot / mV')=1,rgb('Zeta pot / mV')=(0,0,65535),useMrkStrokeRGB('Zeta pot / mV')=1,rgb('fit_Zeta pot / mV')=(0,0,65535),rgb('fit_Rh / nm')=(65535,0,0) •SavePICT/E=-9 as "PB-pH.svg" •ErrorBars/T=1.5/L=1.5 'Rh / nm' Y,wave=('SD-Rh / nm','SD-Rh / nm');DelayUpdate •ErrorBars/T=1.5/L=1.5 'Zeta pot / mV' Y,wave=('SD-zeta / nm','SD-zeta / nm') •SavePICT/E=-9 •SavePICT/E=-9 •ModifyGraph width=504,height=504,gfSize=18 •SavePICT/E=-9 •ModifyGraph margin(left)=144,margin(bottom)=108,margin(right)=144 •ModifyGraph fSize(left)=20;DelayUpdate •Label left "\\Zr133Zeta potential / mV" •ModifyGraph fSize(right)=20;DelayUpdate •Label right "\\Zr133Hydrodynamic radius / mV" •Label bottom "\\Zr133pH";DelayUpdate •ModifyGraph fSize(bottom)=20 •SavePICT/E=-9 •SetAxis bottom 4,10 •ModifyGraph hideTrace('fit_Zeta pot / mV')=1,hideTrace('fit_Rh / nm')=1 •SetAxis bottom 3.9,10.1 •SavePICT/E=-9 •SavePICT/E=-9 •Rename 'Zeta pot / mV','Efmob / um cm V-1 s-1' •Rename 'SD-zeta / nm','SD-Efmob' •SetAxis left -3,3 •Label left "\\Zr133Electrophoretic mobility / μm·cm V\\S-1\\M\\Zr133 s\\S-1\\M\\Zr133" •Legend/C/N=text0/J "\\Z16\\s('Efmob / um cm V-1 s-1') \\Z22Electrophoretic mobility\r\\Z16\\s('Rh / nm') \\Z22Hydrodynamic radius";DelayUpdate •AppendText/N=text0 "\\s('Efmob / um cm V-1 s-1'#1) 'Efmob / um cm V-1 s-1'#1" •SavePICT/E=-9 •Label right "\\Zr133Hydrodynamic radius / nm" •Rename wave0,EF_PBPPN; Rename wave1,sd_EF_PBPPN •SetAxis right 0,150 •Legend/C/N=text0/J "\\Zr133\\s('Efmob / um cm V-1 s-1') Electrophoretic mobility\r\\s('Rh / nm') Hydrodynamic radius" •RemoveFromGraph 'zeta_PBPPN / mV' •AppendToGraph EF_PBPPN vs pHzeta_PBPPN •RemoveFromGraph 'Rh_PBPPN / nm' •AppendToGraph/R 'Rh_PBPPN / nm' vs pHRh_PBPPN •ModifyGraph mirror(bottom)=2,fSize=20,axThick=1.5;DelayUpdate •SetAxis left -0.4,0.3 •ModifyGraph ZisZ(left)=1,manTick(left)={0,0.1,0,1},manMinor(left)={0,0},manTick(right)={0,25,0,0},manMinor(right)={0,0};DelayUpdate •SetAxis right 0,150 •ModifyGraph axRGB(right)=(65535,0,0),tlblRGB(right)=(65535,0,0),alblRGB(right)=(65535,0,0) •ModifyGraph axRGB(left)=(65535,0,0),tlblRGB(left)=(65535,0,0),alblRGB(left)=(65535,0,0);DelayUpdate •Label left "\\Zr133Electrophoretic mobility / μm·cm V\\S-1\\M\\Zr133 s\\S-1\\M\\Zr133" •ModifyGraph mode=3,useMrkStrokeRGB=1,marker(EF_PBPPN)=16,rgb(EF_PBPPN)=(0,0,65535),marker('Rh_PBPPN / nm')=19 •ModifyGraph axRGB(left)=(0,0,65535),tlblRGB(left)=(0,0,65535),alblRGB(left)=(0,0,65535) •Label bottom "\\Zr133pH" •Label right "\\Zr133Hydrodynamic radius / nm" •ModifyGraph margin(left)=144,margin(bottom)=108,margin(right)=144,gfSize=18 •ModifyGraph width=504,height=504 •Legend/C/N=text0/J/F=0/B=1/A=MC "\\Zr133\\s(EF_PBPPN) Electrophoretic mobility\r\\s('Rh_PBPPN / nm') Hydrodynamic radius" •SavePICT/E=-9 •SavePICT/E=-9 as "PBPPN_pH.svg" •SetAxis bottom 3.5,10.5 •ErrorBars/T=1.5/L=1.5 'Rh_PBPPN / nm' Y,wave=('sd_Rh_PBPPN / nm','sd_Rh_PBPPN / nm') •AppendToTable pHzeta_PBPPN •DeletePoints 7,5, pHzeta_PBPPN •SetAxis left -0.5,0.6 •ModifyGraph manTick(left)={0,0.2,0,1},manMinor(left)={0,0};DelayUpdate •SetAxis left -0.6,0.6 •ModifyGraph mode(EF_PBPPN)=4,mrkThick(EF_PBPPN)=1.5,mrkStrokeRGB(EF_PBPPN)=(0,0,65535) •ModifyGraph mrkStrokeRGB=(0,0,0),lsize(EF_PBPPN)=1.5 •ModifyGraph mrkThick(EF_PBPPN)=1 •ModifyGraph mode=3 •ErrorBars/T=1.5/L=1.5 EF_PBPPN Y,wave=(sd_EF_PBPPN,sd_EF_PBPPN) •ModifyGraph zero(left)=1 •ModifyGraph zero(left)=4,gridRGB(left)=(0,0,0) •SavePICT/E=-9 •ModifyGraph rgb(EF_PBPPN)=(65535,21845,0),rgb('Rh_PBPPN / nm')=(0,43690,65535) •ModifyGraph axRGB(left)=(65535,21845,0),axRGB(right)=(0,43690,65535),tlblRGB(left)=(65535,21845,0),tlblRGB(right)=(0,43690,65535),alblRGB(left)=(65535,21845,0),alblRGB(right)=(0,43690,65535) •Label left "\\Zr133Electrophoretic mobility / 10\\S-9\\M\\Zr133 m\\S2\\M\\Zr133 V\\S-1\\M\\Zr133 s\\S-1\\M\\Zr133" •Label left "\\Zr133Electrophoretic Mobility / 10\\S-9\\M\\Zr133 m\\S2\\M\\Zr133 V\\S-1\\M\\Zr133 s\\S-1\\M\\Zr133";DelayUpdate •Label right "\\Zr133Hydrodynamic Radius / nm" •SavePICT/E=-9 •CurveFit line EF_PBPPN[3,] /X=pH /D Curve fit with data subrange: EF_PBPPN[3,*] fit_EF_PBPPN= W_coef[0]+W_coef[1]*x W_coef={1.9924,-0.23401} V_chisq= 0.017766;V_npnts= 4;V_numNaNs= 0;V_numINFs= 0; V_startRow= 3;V_endRow= 6;V_q= 1;V_Rab= -0.99146;V_Pr= -0.969055; V_r2= 0.939067; W_sigma={0.361,0.0421} Coefficient values ± one standard deviation a = 1.9924 ± 0.361 b = -0.23401 ± 0.0421 !ôšL ¸°VxÉÁY †^7áÐlÝápHð?ð?ð?ð?@@@@ @"@$@¸U2xºÁY £^7á*ÔAáRh / nmð?ð?ð?ð??ZZ:ÃV@”ÞpÂÚV@.†zfïV@³5ÏÏ©V@À%¾âÀV@j&çÝ;W@WÙ ªlyW@€šú@»ÁY ©^7áŠÍAáPDIð?ð?ð?ð?¸^¼x¼ÁY «^7áÍæáEfmob / um cm V-1 s-1ð?ð?ð?ð?yÏ?É6;ø¿Ö„þS»ý¿LÃAY0Uÿ¿‡™PŽý¿±°þÔÿ¿%ÛmÕ}™ÿ¿ @rG ®À¸BñxæÁY ÿ`7á/ÔAáSD-Rh / nmð?ð?ð?ð?oâë8lY@p˜+-jªô?:þ€x›@*œ“Í þý?ѲY!@’´%ï?éö?$~N Œ&@¸íâxéÁY a7áÍæáSD-Efmobð?ð?ð?ð?o“4›¡š?Ø‹,ñ¡?0J€õ£?Ó Gi̪¬?ܳᬵ?‰—QsŒ@¤?ç":ÛÓ©?ÅPíÁY ÿ¶ºâÿ¶ºâW_coefð?ð?ð?ð?rôzõÆàÿ?Ð/PôÍ¿ÏY€P?ÕÁY ´ËÖá´ËÖáfit_Zeta pot / mVÍÌÌÌÌÌ@ð?ð?ð?333333@É‹x Bÿ2À~S§ºœ8À'fit_Zeta pot / mV'= W_coef[0]+W_coef[1]*x W_coef={-15.103,-0.90566} V_chisq= 9.36637;V_npnts= 7;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 6;V_q= 1;V_Rab= -0.960949; V_Pr= -0.849546;V_r2= 0.721729; W_sigma={1.87,0.251} Coefficient values ± one standard deviation a = -15.103 ± 1.87 b = -0.90566 ± 0.251 ¯uÀÔÁY Lb7áLb7áM_Covarð?ð?ð?ð?¿‰Ý~ô–R@ Ì ‹ {CÀ·¶÷.âæ@°êÓÙ ÐÓ¿ Ì ‹ {CÀÖþ°ñÎ4@Yî©.ü À:r\Ç´Å?·¶÷.âæ@Yî©.ü Àâjšy¹á?c>4±‚Ñœ¿°êÓÙ ÐÓ¿:r\Ç´Å?c>4±‚Ñœ¿šˆÕŠW¥W?·ÃPÊÁY ÿ¶ºâÿ¶ºâW_sigmað?ð?ð?ð?ƒœ»?€ ×?7@j¦”¥?¨AhÙÁY Lb7áLb7áW_ParamConfidenceIntervalð?ð?ð?ð? •ÂPîÁY ›ËÖá›ËÖáfit_Rh / nmÍÌÌÌÌÌ@ð?ð?ð?333333@Èi_«JìV@Èi_«JìV@'fit_Rh / nm'= W_coef[0]+W_coef[1]*x W_coef={91.692,0} V_chisq= 7.06568;V_npnts= 7;V_numNaNs= 0;V_numINFs= 0; V_startRow= 0;V_endRow= 6;V_q= 1;V_Rab= 0;V_Pr= 0.682869;V_r2= 0; W_sigma={0.41,0} Coefficient values ± one standard deviation a = 91.692 ± 0.41 b = 0 ± 0 ¸÷ÓxÌÁY 5aÄáÞ5jâpHzeta_PBPPNð?ð?ð?ð?¸…ëQ¸@ffffff@)\Âõ(@Âõ(\@{®Gáz@ö(\Âu!@q= ×£p$@¸ï~xïÁY @aÄá’6jâzeta_PBPPN / mVð?ð?ð?ð?‡áŸ)¦†@ÜÚ÷å"» @[÷$êäþ@Y2œrRú @°9Ëÿ?ƒ`Nl׿zQ(ü32À¸cõxÎÁY @aÄá’6jâsd_zeta_PBPPN / mVð?ð?ð?ð?¿µÞ2QËÃ?œ¨ñG[ÙÄ?—þÙÚË?Œ"RpDÍ?ŒO;Û'ðÁ?³š á,Ä?5ãX ÏÄ?¸àx½ÁY AaÄáš2jâRh_PBPPN / nmð?ð?ð?ð?TªDÙÛYW@±éµ—¼ÏV@K"¹D=W@êÚ¯µV@ªx+dÑrW@½Þýq¢Y@oom—¬ÕV@¸”|xçÁY BaÄá£4jâsd_Rh_PBPPN / nmð?ð?ð?ð?çQ½åÚ?y1lK•þ?L0ƒÎ÷y@s/ÍY€ö?ÞEæ1Í“@’“&n‰@6õµð?¸5xêÁY ñaÄá†2jâpHRh_PBPPNð?ð?ð?ð?¸…ëQ¸@ffffff@)\Âõ(@Âõ(\@{®Gáz@ö(\Âu!@q= ×£p$@¸ú=xìÁY #¿â’6jâEF_PBPPNð?ð?ð?ð?8šw*Mkà?J_Y€î¿Ô?¢•grÙ?ÖÜÔÒ?•óúÐ[µÅ?¹Àn£ÄX ¿ä]*fËÚ¿¸%×xðÁY $¿â’6jâsd_EF_PBPPNð?ð?ð?ð?õÝâ¡‹? øº× ?’Ìž(p“?¿€38m”?Ÿ$qà ‰?®™hÏæê‹?ˆfô\ ?÷ŽPg¸î ÿ¶ºâÿ¶ºâfit_EF_PBPPN@ð?ð?ð?@pª~=­Ö?H°ºô@Ö¿Curve fit with data subrange: EF_PBPPN[3,*] fit_EF_PBPPN= W_coef[0]+W_coef[1]*x W_coef={1.9924,-0.23401} V_chisq= 0.017766;V_npnts= 4;V_numNaNs= 0;V_numINFs= 0; V_startRow= 3;V_endRow= 6;V_q= 1;V_Rab= -0.99146;V_Pr= -0.969055; V_r2= 0.939067; W_sigma={0.361,0.0421} Coefficient values ± one standard deviation a = 1.9924 ± 0.361 b = -0.23401 ± 0.0421 *í// Platform=WindowsNT, IGORVersion=9.050, architecture=Intel, systemTextEncoding="Windows-1250", historyTextEncoding="UTF-8", procwinTextEncoding="UTF-8", recreationTextEncoding="UTF-8", build=56551 #pragma TextEncoding = "UTF-8" Silent 101 // use | as bitwise or -- not comment. DefaultFont "Arial" MoveWindow/P 5.25,44.75,705,500 Table0() Graph0() Table1() MoveWindow/C 6,722,114,767.75 Graph1() KillStrings/Z root:gWMSetNextTextFilesTextEncoding Window Graph1() : Graph PauseUpdate; Silent 1 // building window... Display /W=(552,47.75,1344,683.75) EF_PBPPN vs pHzeta_PBPPN AppendToGraph/R 'Rh_PBPPN / nm' vs pHRh_PBPPN AppendToGraph fit_EF_PBPPN ModifyGraph margin(left)=144,margin(bottom)=108,margin(right)=144,gfSize=18,width=504 ModifyGraph height=504 ModifyGraph mode(EF_PBPPN)=3,mode('Rh_PBPPN / nm')=3 ModifyGraph marker(EF_PBPPN)=16,marker('Rh_PBPPN / nm')=19 ModifyGraph lSize(EF_PBPPN)=1.5 ModifyGraph rgb(EF_PBPPN)=(65535,21845,0),rgb('Rh_PBPPN / nm')=(0,43690,65535) ModifyGraph mrkThick(EF_PBPPN)=1 ModifyGraph useMrkStrokeRGB(EF_PBPPN)=1,useMrkStrokeRGB('Rh_PBPPN / nm')=1 ModifyGraph zero(left)=4 ModifyGraph mirror(bottom)=2 ModifyGraph minor(bottom)=1 ModifyGraph fSize=20 ModifyGraph lblMargin(left)=37,lblMargin(bottom)=3 ModifyGraph axThick=1.5 ModifyGraph gridRGB(left)=(0,0,0) ModifyGraph axRGB(left)=(65535,21845,0),axRGB(right)=(0,43690,65535) ModifyGraph tlblRGB(left)=(65535,21845,0),tlblRGB(right)=(0,43690,65535) ModifyGraph alblRGB(left)=(65535,21845,0),alblRGB(right)=(0,43690,65535) ModifyGraph lblLatPos(left)=2,lblLatPos(bottom)=-1 ModifyGraph ZisZ(left)=1 ModifyGraph manTick(left)={0,0.2,0,1},manMinor(left)={0,0} ModifyGraph manTick(bottom)={4,1,0,0},manMinor(bottom)={0,0} ModifyGraph manTick(right)={0,25,0,0},manMinor(right)={0,0} Label left "\\Zr133Electrophoretic Mobility / 10\\S-9\\M\\Zr133 m\\S2\\M\\Zr133 V\\S-1\\M\\Zr133 s\\S-1\\M\\Zr133" Label bottom "\\Zr133pH" Label right "\\Zr133Hydrodynamic Radius / nm" SetAxis left -0.6,0.6 SetAxis bottom 3.5,10.5 SetAxis right 0,150 ErrorBars/T=1.5/L=1.5 EF_PBPPN Y,wave=(sd_EF_PBPPN,sd_EF_PBPPN) ErrorBars/T=1.5/L=1.5 'Rh_PBPPN / nm' Y,wave=('sd_Rh_PBPPN / nm','sd_Rh_PBPPN / nm') Legend/C/N=text0/J/F=0/B=1/A=MC/X=-23.21/Y=-44.49 "\\Zr133\\s(EF_PBPPN) Electrophoretic mobility\r\\s('Rh_PBPPN / nm') Hydrodynamic radius" AppendText "\\s(fit_EF_PBPPN) fit_EF_PBPPN" EndMacro Window Table1() : Table PauseUpdate; Silent 1 // building window... Edit/W=(5.25,41.75,510,248.75) pHzeta_PBPPN,'zeta_PBPPN / mV','sd_zeta_PBPPN / mV' as "PBPPN pH" AppendToTable EF_PBPPN,sd_EF_PBPPN,pHRh_PBPPN,'Rh_PBPPN / nm','sd_Rh_PBPPN / nm' ModifyTable format(Point)=1 EndMacro Window Graph0() : Graph PauseUpdate; Silent 1 // building window... Display /W=(198,59,990,701.75)/R 'Rh / nm' vs pH AppendToGraph 'Efmob / um cm V-1 s-1' vs pH AppendToGraph 'fit_Zeta pot / mV' AppendToGraph/R 'fit_Rh / nm' AppendToGraph/R/T 'Efmob / um cm V-1 s-1' vs pH ModifyGraph margin(left)=144,margin(bottom)=108,margin(right)=144,gfSize=18,width=504 ModifyGraph height=504 ModifyGraph mode('Rh / nm')=3,mode('Efmob / um cm V-1 s-1')=3 ModifyGraph marker('Rh / nm')=19,marker('Efmob / um cm V-1 s-1')=16 ModifyGraph lSize('Rh / nm')=1.5,lSize('Efmob / um cm V-1 s-1')=1.5,lSize('fit_Zeta pot / mV')=1.5 ModifyGraph lSize('fit_Rh / nm')=1.5 ModifyGraph rgb('Efmob / um cm V-1 s-1')=(0,0,65535),rgb('fit_Zeta pot / mV')=(0,0,65535) ModifyGraph mrkThick('Rh / nm')=1,mrkThick('Efmob / um cm V-1 s-1')=1 ModifyGraph hideTrace('fit_Zeta pot / mV')=1,hideTrace('fit_Rh / nm')=1,hideTrace('Efmob / um cm V-1 s-1'#1)=1 ModifyGraph useMrkStrokeRGB('Rh / nm')=1,useMrkStrokeRGB('Efmob / um cm V-1 s-1')=1 ModifyGraph tick(top)=3 ModifyGraph minor(bottom)=1 ModifyGraph noLabel(top)=1 ModifyGraph fSize(right)=20,fSize(bottom)=20,fSize(left)=20 ModifyGraph lblMargin(right)=48,lblMargin(bottom)=27,lblMargin(left)=43 ModifyGraph axOffset(top)=-2 ModifyGraph axThick=1.5 ModifyGraph axRGB(right)=(65535,0,0),axRGB(left)=(0,0,65535) ModifyGraph tlblRGB(right)=(65535,0,0),tlblRGB(left)=(0,0,65535) ModifyGraph alblRGB(right)=(65535,0,0),alblRGB(left)=(0,0,65535) ModifyGraph lblLatPos(right)=3 ModifyGraph manTick(right)={0,25,0,0},manMinor(right)={0,0} ModifyGraph manTick(bottom)={4,1,0,0},manMinor(bottom)={0,0} Label right "\\Zr133Hydrodynamic radius / nm" Label bottom "\\Zr133pH" Label left "\\Zr133Electrophoretic mobility / μm·cm V\\S-1\\M\\Zr133 s\\S-1\\M\\Zr133" SetAxis right 0,150 SetAxis bottom 3.9,10.1 SetAxis left -3,3 ErrorBars/T=1.5/L=1.5 'Rh / nm' Y,wave=('SD-Rh / nm','SD-Rh / nm') ErrorBars/T=1.5/L=1.5 'Efmob / um cm V-1 s-1' Y,wave=('SD-Efmob','SD-Efmob') Legend/C/N=text0/J/F=0/B=1/A=MC/X=-24.40/Y=44.64 "\\Zr133\\s('Efmob / um cm V-1 s-1') Electrophoretic mobility\r\\s('Rh / nm') Hydrodynamic radius" EndMacro Window Table0() : Table PauseUpdate; Silent 1 // building window... Edit/W=(25.5,111.5,650.25,318.5) pH,'Rh / nm',PDI,'Efmob / um cm V-1 s-1','SD-Rh / nm' AppendToTable 'SD-Efmob' ModifyTable format(Point)=1 EndMacro Á#pragma TextEncoding = "UTF-8" #pragma rtGlobals=3 // Use modern global access method and strict wave access #pragma DefaultTab={3,20,4} // Set default tab width in Igor Pro 9 and later