TY - JOUR
T1 - Purification and Characterization of Thymol Blue for Spectrophotometric PH Measurements in Rivers, Estuaries, and Oceans
AU - Hudson-Heck, Ellie
AU - Byrne, Robert H.
PY - 2019/1/1
Y1 - 2019/1/1
N2 - Thymol blue (TB) is one of a suite of indicator dyes appropriate for spectrophotometric determinations of the pH of aqueous solutions. For measurements of seawater pH, meta-cresol purple (mCP) is most often used, but TB is especially well suited for measurements in surface or shallow waters where the pH may exceed the optimal indicating range of mCP (e.g., due to photosynthesis). This work presents flash chromatography procedures for purifying commercially available TB and describes physical–chemical characteristics of the purified dye, thus enabling the acquisition of spectrophotometric pH measurements over a wide range of practical salinities (SP) and temperatures (T). The essential TB characteristics for 0 ≤ SP ≤ 40 and 278.15 ≤ T ≤ 308.15 K are described by: pHT=−TB(log(K2Te2))+log((R−e1)/(1−Re4)) TB(logK2Te2)=6.6942-0.001129Sp0.5T-0.5926T-0.5Sp+619.40/T+0.1441SP-0.02591Sp1.5+0.0034Sp2-0.0001754Sp2.5 e1 = −0.00132 + 0.00001600T e4 = −0.005042 + 0.0002094T + 0.01916SP0.5/T where pHT is pH determined on the total hydrogen ion concentration scale; R is the ratio of TB absorbances (A) at 435 and 596 nm (596A/435A); K2T is the equilibrium constant for the second TB dissociation step on the total scale; and e1, e2, and e4 are TB molar absorptivity ratios. This characterization was developed in a manner that ensures consistency with the primary TRIS buffer standards used in previously published characterizations of mCP. With this characterization, TB joins mCP as a sulfonephthalein indicator that has been characterized over the ranges of salinity and temperature required to make high-quality pH measurements in rivers, estuaries, and the open ocean. The full characterization of purified TB reported here extends the upper range of pHT that can be accessed with precise spectrophotometric measurements by approximately 0.50 pH units.
AB - Thymol blue (TB) is one of a suite of indicator dyes appropriate for spectrophotometric determinations of the pH of aqueous solutions. For measurements of seawater pH, meta-cresol purple (mCP) is most often used, but TB is especially well suited for measurements in surface or shallow waters where the pH may exceed the optimal indicating range of mCP (e.g., due to photosynthesis). This work presents flash chromatography procedures for purifying commercially available TB and describes physical–chemical characteristics of the purified dye, thus enabling the acquisition of spectrophotometric pH measurements over a wide range of practical salinities (SP) and temperatures (T). The essential TB characteristics for 0 ≤ SP ≤ 40 and 278.15 ≤ T ≤ 308.15 K are described by: pHT=−TB(log(K2Te2))+log((R−e1)/(1−Re4)) TB(logK2Te2)=6.6942-0.001129Sp0.5T-0.5926T-0.5Sp+619.40/T+0.1441SP-0.02591Sp1.5+0.0034Sp2-0.0001754Sp2.5 e1 = −0.00132 + 0.00001600T e4 = −0.005042 + 0.0002094T + 0.01916SP0.5/T where pHT is pH determined on the total hydrogen ion concentration scale; R is the ratio of TB absorbances (A) at 435 and 596 nm (596A/435A); K2T is the equilibrium constant for the second TB dissociation step on the total scale; and e1, e2, and e4 are TB molar absorptivity ratios. This characterization was developed in a manner that ensures consistency with the primary TRIS buffer standards used in previously published characterizations of mCP. With this characterization, TB joins mCP as a sulfonephthalein indicator that has been characterized over the ranges of salinity and temperature required to make high-quality pH measurements in rivers, estuaries, and the open ocean. The full characterization of purified TB reported here extends the upper range of pHT that can be accessed with precise spectrophotometric measurements by approximately 0.50 pH units.
KW - Thymol blue purification
KW - Spectrophotometric pH
KW - Estuarine conditions
KW - Absorbance ratios
UR - https://digitalcommons.usf.edu/msc_facpub/1798
UR - https://doi.org/10.1016/j.aca.2019.09.009
U2 - 10.1016/j.aca.2019.09.009
DO - 10.1016/j.aca.2019.09.009
M3 - Article
VL - 1090
JO - Analytica Chimica Acta
JF - Analytica Chimica Acta
ER -