BibTex RIS Kaynak Göster

Surface pKa determination of benzoic acid modified gold electrode by electrochemical and contact angle measurement methods

Yıl 2014, Cilt: 2 Sayı: 1, 3 - 15, 01.05.2014

Ali Solak Gamze Abacıoğlu Zafer Üstündağ Serkan Demirci Aybüke Turan Haslet Ekşi Remziye Güzel Sebahattin Balcı

Öz

pKa values of the organic surfaces were determined with ionizable carboxylic acid groups, obtained by the modification of gold electrode by reduction of p-benzoic acid diazonium tetrafluoroborate and oxidation of p-aminobenzoic acid. Cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS) techniques were used in the surface pKa determination, by exploiting the barrier effect arising from the charged nature of the surface against the electrochemistry of Fe(CN)64-/3- redox probe. Contact angle measurement (CAM) technique was also used to compare the accuracy of the surface pKa values acquired by electrochemical methods. pKa values for Au-BA were found as 2.938±0.283, 4.128 ± 0.342 and 4.251±0.089 by CV, EIS, and CAM, respectively : while the values are 4.084±0.101 5.326±0.323 and 5.102±0.147 for Au-NHBA.

Anahtar Kelimeler

Surface pKa of benzoic acid modified gold electrode cyclic voltammetry electrochemical impedance spectroscopy contact angle measurement

Kaynakça

  • [1] McCreery RL, Electrochem. Soc. of Japan 78(2) (2010) 103.
  • [2] Allongue P, Delamar M, Desbat B, Fagebaume O, Hitmi R, Pinson J, Savéant JM, J. Am. Chem. Soc. 119(1) (1997) 201-207.
  • [3] Ghilane J, Martin P, Randriamahazaka H, Lacroix CJ, Electrochem. Commun. 12(2) (2010) 246-249.
  • [4] Downard AJ, Tan ESQ, Yu SSC, New J. Chem. 30(98) (2006) 1283-1288.
  • [5] Bureau C, Delhalle JJ, J. Surf. Anal. 6 (1999) 159-170.
  • [6] Ameur S, Bureau C, Charlier J, Palacin S, J. Phys. Chem. B 108 (2004) 13042-13046.
  • [7] İsbir-Turan AA, Üstündağ Z, Solak AO, Kılıç E, Avseven A, Thin Solid Films 517(9) (2009) 2871-2877.
  • [8] Üstündağ Z, Solak AO, Electrochim. Acta 54(26) (2009) 6426-6432.
  • [9] Pinson J, Podvorica F, Chem. Soc. Rev. 34(5) (2005) 429-439.
  • [10] Downard AJ, Electroanal. 12(14) (2000) 1085-1096.
  • [11] Downard AJ, Prince MJ, Langmuir 17(18) (2001) 5581-5586.
  • [12] Herlem G, Goux C, Fahys B, Dominati FA, Gonçalves M, Mathieu C, Sutter E, Trokourey A, Penneau JF, J. Electroanal. Chem. 435(1-2) (1997) 259-265.
  • [13] Hurley BL, McCreery RL, J. Electrochem. Soc. 151(5) (2004) B252-B259.
  • [14] McCreery R, Dieringer J, Solak AO, Snyder B, Nowak AM, DuVall WRS, J. Am. Chem. Soc. 125(35) (2003) 10748-10758.
  • [15] Solak AO, Eichorst LR, Clark WJ, McCreery RL, Anal. Chem. 75(2) (2003) 296-305.
  • [16] Palacin S, Bureau C, Charlier J, Deniau G, Mouanda B, Viel P, ChemPhysChem 5(10) (2004) 1468-1481.
  • [17] Ranganathan S, Steidel I, Anariba F, McCreery RL, Nano Lett. 1(9) (2001) 491-494.
  • [18] İsbir AA, Solak AO, Üstündağ Z, Bilge S, Natsagdorj A, Kılıç E, Kılıç Z, Anal. Chim. Acta 547(1) (2005) 59-63.
  • [19] İsbir-Turan AA, Kılıç E, Üstündağ Z, Ekşi H, Solak AO, Zorer B, J. Solid State Electrochem. 16(1) (2012) 235-245.
  • [20] Üstündağ Z, İsbir-Turan AA, Solak AO, Kılıç E, Avseven A, Instrument. Sci. & Techn. 37(3) (2009) 284-302.
  • [21] İsbir-Turan AA, Solak AO, Üstündağ Z, Kılıç E, Avseven A, Electroanal. 20(15) (2008) 1665-1670.
  • [22] Solak AO, Ranganathan S, Itoh T, McCreery RL, Electrochem. Solid-State Lett. 5(8) (2002) E43-E46.
  • [23] Bernard MC, Chausse A, C-Deliry E, Chehimi M, Pinson J, Podvorica F, V-Ul C, Chem. Mater. 15(18) (2003) 3450-3462.
  • [24] Liu G, Liu J, Böcking T, Eggers PK, Gooding J, Chem. Phys. 319(1-3) (2005) 136-146.
  • [25] Adenier A, Bernard MC, Chehimi MM, C-Deliry E, Desbat B, Fagebaume O, Pinson J, Podvorica F, J. Am. Chem. Soc. 123(19) (2001) 4541-4549.
  • [26] Boukerma K, Chehimi MM, Pinson J, Blomfield C, Langmuir 19(15) (2003) 6333-6335.
  • [27] Stewart MP, Maya MP, Kosynkin DV, Dirk SM, Stapleton JJ, Allara CL, Tour JM, J. Am. Chem. Soc. 126(1) (2004) 370-378.
  • [28] Cruickshank AC, Tan ESQ, Brooksby PA, Downard A, Electrochem. Commun. 9(7) (2007) 1456-1462.
  • [29] Taner B, Özcan E, Üstündag Z, Keskin S, Solak AO, Ekşi H, Thin Solid Films 519(1) (2010) 289-295.
  • [30] Nowak AM, McCreery RL, Anal. Chem. 76(9) (2004) 1089-1097.
  • [31] Anariba F, Viswanathan U, Bocian DF, McCreery RL, Anal. Chem. 78(9) (2006) 3104-3112.
  • [32] Paulik MG, Brooksby PA, Abell AD, Downard AJ, J. Phys. Chem. C 111(21) (2007) 7808-7815.
  • [33] Morita K, Yamaguchi A, Teramae N, J. Electroanal. Chem. 563(2) (2004) 249-255.
  • [34] Yang G, Shen Y, Wang M, Chen H, Liu B, Dong S, Talanta 68(3) (2006) 741-747.
  • [35] Liu J, Cheng L, Liu B, Dong S, Langmuir 16(19) (2000) 7471-7476.
  • [36] Bryant MA, Crooks RM, Langmuir 9(2) (1993) 385-387.
  • [37] Kim K, Kwak J, J. Electroanal. Chem. 512(1-2) (2001) 83-91.
  • [38] Takahashi S, Anzai J, Langmuir 21(11) (2005) 5102-5107.
  • [39] Li X, Wan Y, Sun C, J. Electroanal. Chem. 569(1) (2004) 79-87.
  • [40] Nigmatullin RR, Baleanu D, Dinç E, Solak AO, Phys. E: Low-Dimen. Syst. and Nanostruct. 41(4) (2009) 609-616.
  • [41] Tekin-Celebi S, Solak AO, Üstündağ Z, Demirci S, Chem. Papers 66(12) (2012) 1146-1156.
  • [42] Liu G, Böcking T, Gooding JJ, J. Electroanal. Chem. 600(2) (2007) 335-344.
  • [43] Bhugun I, Savéant JM, J. Electroanal. Chem. 395(1-2) (1995) 127-131.
  • [44] Abiman P, Crossley A, Wildgoose GG, Jones JH, Compton RG, Langmuir 23(14) (2007) 7847-7852.
  • [45] Brooksby PA, Downard AJ, Langmuir 20(12) (2004) 5038-5045.
  • [46] Adenier A, Chehimi MM, Gallardo I, Pinson J, Vilá N, Langmuir 20(19) (2004) 8243-8253.
  • [47] Üstündağ Z, Çaglayan MO, Güzel R, Pişkin E, Solak AO, Analyst 136(7) (2011) 1464-1471.
  • [48] Baranton S, Bélanger D, J. Phys. Chem. B 109(51) (2005) 24401-24410.
  • [49] Weast RC, CRC Handbook of Chemistry and Physics Boca Raton, FL, USA, 1974.
  • [50] Petrov JG, Möbis D, Langmuir 12(15) (1996) 3650-3656.
  • [51] Saby C, Ortiz B, Champagne GY, Bélanger D, Langmuir 13(23) (1997) 6805-6813.
  • [52] Demirci S, Caykara T, Surf. Sci. 604(7-8) (2010) 649-653.
  • [53] Demirci S, Alaslan A, Caykara T, App. Surf. Sci. 255 (2009) 5979-5983.
  • [54] Wang H, Lee IH, Yan MA, J. Coll. Interf. Sci. 365(1) (2012) 178-183.
  • [55] Wagner M, Mavon A, Haidara H, Vallat MF, Duplan H, Roucoules V, Intern. J. Cosm. Sci. 34(1) (2012) 55-63.
  • [56] Demirci S, Kinali-Demirci S, Caykara T, J. Polym. Sci. Part A: Polym. Chem. 51(7) (2013) 1612-1619.
  • [57] Dong R, Lindau M, Ober CK, Langmuir 25(8) (2009) 4774-4779.
  • [58] Whitesides GM, Laibinis PE, Langmuir 6(1) (1990) 87-96.
  • [59] Holmes-Farley SR, Reamey RH, McCarthy TJ, Deutch J, Whitesides GM, Langmuir 1(6) (1985) 725-740.

Benzoik Asitle Modifiye Edilmiş Altın Elektrotun Yüzey pKa'sının Elektrokimyasal ve Temas Açısı Ölçüm Metotları ile Tayini

Yıl 2014, Cilt: 2 Sayı: 1, 3 - 15, 01.05.2014

Ali Solak Gamze Abacıoğlu Zafer Üstündağ Serkan Demirci Aybüke Turan Haslet Ekşi Remziye Güzel Sebahattin Balcı

Öz

p-Benzoik asit diazonyum tuzunun altın elektrot yüzeyinde indirgenmesi ile p-amino benzoik asit tuzunun yükseltgenmesi sonucu elde edilen modifiye altın elektrot yüzeylerinin pKa değerleri iyonize olabilen karboksilik asit grupları ile tayin edilmiştir. pKa tayini için dönüşümlü voltametri (CV) ve elektrokimyasal empedans spektroskopisi (EIS) teknikleri kullanılmıştır. Redoks probu olarak Fe(CN)64-/3- kullanılmıştır. Elektrokimyasal tekniklerle belirlenen pKa değerlerini karşılaştırmak amacıyla temas açısı ölçümleri (CAM) yapılmıştır. Au-BA için pKa değerleri CV, EIS ve CAM teknikleri ile sırasıyla 2.938±0.283, 4.128 ± 0.342 ve 4.251±0.089 ve Au-NHBA için ise yine sırasıyla 4.084±0.101 5.326±0.323 ve 5.102±0.147 olarak bulunmuştur

Anahtar Kelimeler

Benzoik asitin yüzey pKa modifiye altın elektrot dönüşümlü voltametri elektrokimyasal empedans spektroskopisi temas açısı ölçümü

Kaynakça

  • [1] McCreery RL, Electrochem. Soc. of Japan 78(2) (2010) 103.
  • [2] Allongue P, Delamar M, Desbat B, Fagebaume O, Hitmi R, Pinson J, Savéant JM, J. Am. Chem. Soc. 119(1) (1997) 201-207.
  • [3] Ghilane J, Martin P, Randriamahazaka H, Lacroix CJ, Electrochem. Commun. 12(2) (2010) 246-249.
  • [4] Downard AJ, Tan ESQ, Yu SSC, New J. Chem. 30(98) (2006) 1283-1288.
  • [5] Bureau C, Delhalle JJ, J. Surf. Anal. 6 (1999) 159-170.
  • [6] Ameur S, Bureau C, Charlier J, Palacin S, J. Phys. Chem. B 108 (2004) 13042-13046.
  • [7] İsbir-Turan AA, Üstündağ Z, Solak AO, Kılıç E, Avseven A, Thin Solid Films 517(9) (2009) 2871-2877.
  • [8] Üstündağ Z, Solak AO, Electrochim. Acta 54(26) (2009) 6426-6432.
  • [9] Pinson J, Podvorica F, Chem. Soc. Rev. 34(5) (2005) 429-439.
  • [10] Downard AJ, Electroanal. 12(14) (2000) 1085-1096.
  • [11] Downard AJ, Prince MJ, Langmuir 17(18) (2001) 5581-5586.
  • [12] Herlem G, Goux C, Fahys B, Dominati FA, Gonçalves M, Mathieu C, Sutter E, Trokourey A, Penneau JF, J. Electroanal. Chem. 435(1-2) (1997) 259-265.
  • [13] Hurley BL, McCreery RL, J. Electrochem. Soc. 151(5) (2004) B252-B259.
  • [14] McCreery R, Dieringer J, Solak AO, Snyder B, Nowak AM, DuVall WRS, J. Am. Chem. Soc. 125(35) (2003) 10748-10758.
  • [15] Solak AO, Eichorst LR, Clark WJ, McCreery RL, Anal. Chem. 75(2) (2003) 296-305.
  • [16] Palacin S, Bureau C, Charlier J, Deniau G, Mouanda B, Viel P, ChemPhysChem 5(10) (2004) 1468-1481.
  • [17] Ranganathan S, Steidel I, Anariba F, McCreery RL, Nano Lett. 1(9) (2001) 491-494.
  • [18] İsbir AA, Solak AO, Üstündağ Z, Bilge S, Natsagdorj A, Kılıç E, Kılıç Z, Anal. Chim. Acta 547(1) (2005) 59-63.
  • [19] İsbir-Turan AA, Kılıç E, Üstündağ Z, Ekşi H, Solak AO, Zorer B, J. Solid State Electrochem. 16(1) (2012) 235-245.
  • [20] Üstündağ Z, İsbir-Turan AA, Solak AO, Kılıç E, Avseven A, Instrument. Sci. & Techn. 37(3) (2009) 284-302.
  • [21] İsbir-Turan AA, Solak AO, Üstündağ Z, Kılıç E, Avseven A, Electroanal. 20(15) (2008) 1665-1670.
  • [22] Solak AO, Ranganathan S, Itoh T, McCreery RL, Electrochem. Solid-State Lett. 5(8) (2002) E43-E46.
  • [23] Bernard MC, Chausse A, C-Deliry E, Chehimi M, Pinson J, Podvorica F, V-Ul C, Chem. Mater. 15(18) (2003) 3450-3462.
  • [24] Liu G, Liu J, Böcking T, Eggers PK, Gooding J, Chem. Phys. 319(1-3) (2005) 136-146.
  • [25] Adenier A, Bernard MC, Chehimi MM, C-Deliry E, Desbat B, Fagebaume O, Pinson J, Podvorica F, J. Am. Chem. Soc. 123(19) (2001) 4541-4549.
  • [26] Boukerma K, Chehimi MM, Pinson J, Blomfield C, Langmuir 19(15) (2003) 6333-6335.
  • [27] Stewart MP, Maya MP, Kosynkin DV, Dirk SM, Stapleton JJ, Allara CL, Tour JM, J. Am. Chem. Soc. 126(1) (2004) 370-378.
  • [28] Cruickshank AC, Tan ESQ, Brooksby PA, Downard A, Electrochem. Commun. 9(7) (2007) 1456-1462.
  • [29] Taner B, Özcan E, Üstündag Z, Keskin S, Solak AO, Ekşi H, Thin Solid Films 519(1) (2010) 289-295.
  • [30] Nowak AM, McCreery RL, Anal. Chem. 76(9) (2004) 1089-1097.
  • [31] Anariba F, Viswanathan U, Bocian DF, McCreery RL, Anal. Chem. 78(9) (2006) 3104-3112.
  • [32] Paulik MG, Brooksby PA, Abell AD, Downard AJ, J. Phys. Chem. C 111(21) (2007) 7808-7815.
  • [33] Morita K, Yamaguchi A, Teramae N, J. Electroanal. Chem. 563(2) (2004) 249-255.
  • [34] Yang G, Shen Y, Wang M, Chen H, Liu B, Dong S, Talanta 68(3) (2006) 741-747.
  • [35] Liu J, Cheng L, Liu B, Dong S, Langmuir 16(19) (2000) 7471-7476.
  • [36] Bryant MA, Crooks RM, Langmuir 9(2) (1993) 385-387.
  • [37] Kim K, Kwak J, J. Electroanal. Chem. 512(1-2) (2001) 83-91.
  • [38] Takahashi S, Anzai J, Langmuir 21(11) (2005) 5102-5107.
  • [39] Li X, Wan Y, Sun C, J. Electroanal. Chem. 569(1) (2004) 79-87.
  • [40] Nigmatullin RR, Baleanu D, Dinç E, Solak AO, Phys. E: Low-Dimen. Syst. and Nanostruct. 41(4) (2009) 609-616.
  • [41] Tekin-Celebi S, Solak AO, Üstündağ Z, Demirci S, Chem. Papers 66(12) (2012) 1146-1156.
  • [42] Liu G, Böcking T, Gooding JJ, J. Electroanal. Chem. 600(2) (2007) 335-344.
  • [43] Bhugun I, Savéant JM, J. Electroanal. Chem. 395(1-2) (1995) 127-131.
  • [44] Abiman P, Crossley A, Wildgoose GG, Jones JH, Compton RG, Langmuir 23(14) (2007) 7847-7852.
  • [45] Brooksby PA, Downard AJ, Langmuir 20(12) (2004) 5038-5045.
  • [46] Adenier A, Chehimi MM, Gallardo I, Pinson J, Vilá N, Langmuir 20(19) (2004) 8243-8253.
  • [47] Üstündağ Z, Çaglayan MO, Güzel R, Pişkin E, Solak AO, Analyst 136(7) (2011) 1464-1471.
  • [48] Baranton S, Bélanger D, J. Phys. Chem. B 109(51) (2005) 24401-24410.
  • [49] Weast RC, CRC Handbook of Chemistry and Physics Boca Raton, FL, USA, 1974.
  • [50] Petrov JG, Möbis D, Langmuir 12(15) (1996) 3650-3656.
  • [51] Saby C, Ortiz B, Champagne GY, Bélanger D, Langmuir 13(23) (1997) 6805-6813.
  • [52] Demirci S, Caykara T, Surf. Sci. 604(7-8) (2010) 649-653.
  • [53] Demirci S, Alaslan A, Caykara T, App. Surf. Sci. 255 (2009) 5979-5983.
  • [54] Wang H, Lee IH, Yan MA, J. Coll. Interf. Sci. 365(1) (2012) 178-183.
  • [55] Wagner M, Mavon A, Haidara H, Vallat MF, Duplan H, Roucoules V, Intern. J. Cosm. Sci. 34(1) (2012) 55-63.
  • [56] Demirci S, Kinali-Demirci S, Caykara T, J. Polym. Sci. Part A: Polym. Chem. 51(7) (2013) 1612-1619.
  • [57] Dong R, Lindau M, Ober CK, Langmuir 25(8) (2009) 4774-4779.
  • [58] Whitesides GM, Laibinis PE, Langmuir 6(1) (1990) 87-96.
  • [59] Holmes-Farley SR, Reamey RH, McCarthy TJ, Deutch J, Whitesides GM, Langmuir 1(6) (1985) 725-740.
Toplam 59 adet kaynakça vardır.

Ayrıntılar

Diğer ID JA66ZJ24DV
Bölüm Araştırma Makalesi
Yazarlar

Ali Solak Bu kişi benim

Gamze Abacıoğlu Bu kişi benim

Zafer Üstündağ Bu kişi benim

Serkan Demirci

Aybüke Turan Bu kişi benim

Haslet Ekşi Bu kişi benim

Remziye Güzel Bu kişi benim

Sebahattin Balcı Bu kişi benim

Yayımlanma Tarihi 1 Mayıs 2014
Yayımlandığı Sayı Yıl 2014 Cilt: 2 Sayı: 1

Kaynak Göster

APA Solak, A., Abacıoğlu, G., Üstündağ, Z., Demirci, S., vd. (2014). Surface pKa determination of benzoic acid modified gold electrode by electrochemical and contact angle measurement methods. MANAS Journal of Engineering, 2(1), 3-15.
AMA Solak A, Abacıoğlu G, Üstündağ Z, Demirci S, Turan A, Ekşi H, Güzel R, Balcı S. Surface pKa determination of benzoic acid modified gold electrode by electrochemical and contact angle measurement methods. MJEN. Mayıs 2014;2(1):3-15.
Chicago Solak, Ali, Gamze Abacıoğlu, Zafer Üstündağ, Serkan Demirci, Aybüke Turan, Haslet Ekşi, Remziye Güzel, ve Sebahattin Balcı. “Surface PKa Determination of Benzoic Acid Modified Gold electrode by Electrochemical and Contact Angle Measurement Methods”. MANAS Journal of Engineering 2, sy. 1 (Mayıs 2014): 3-15.
EndNote Solak A, Abacıoğlu G, Üstündağ Z, Demirci S, Turan A, Ekşi H, Güzel R, Balcı S (01 Mayıs 2014) Surface pKa determination of benzoic acid modified gold electrode by electrochemical and contact angle measurement methods. MANAS Journal of Engineering 2 1 3–15.
IEEE A. Solak, “Surface pKa determination of benzoic acid modified gold electrode by electrochemical and contact angle measurement methods”, MJEN, c. 2, sy. 1, ss. 3–15, 2014.
ISNAD Solak, Ali vd. “Surface PKa Determination of Benzoic Acid Modified Gold electrode by Electrochemical and Contact Angle Measurement Methods”. MANAS Journal of Engineering 2/1 (Mayıs 2014), 3-15.
JAMA Solak A, Abacıoğlu G, Üstündağ Z, Demirci S, Turan A, Ekşi H, Güzel R, Balcı S. Surface pKa determination of benzoic acid modified gold electrode by electrochemical and contact angle measurement methods. MJEN. 2014;2:3–15.
MLA Solak, Ali vd. “Surface PKa Determination of Benzoic Acid Modified Gold electrode by Electrochemical and Contact Angle Measurement Methods”. MANAS Journal of Engineering, c. 2, sy. 1, 2014, ss. 3-15.
Vancouver Solak A, Abacıoğlu G, Üstündağ Z, Demirci S, Turan A, Ekşi H, Güzel R, Balcı S. Surface pKa determination of benzoic acid modified gold electrode by electrochemical and contact angle measurement methods. MJEN. 2014;2(1):3-15.

Manas Journal of Engineering 

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