A one-step colorimetric acid–base titration sensor using a complementary color changing coordination system

Abstract: We report the development of a colorimetric sensor that allows for the quantitative measurement of the acid content via acid-base titration in a single-step. In order to create the sensor, we used a cobalt coordination system (Co-complex sensor) that changes from greenish blue colored Co(H2O)4(OH)2 to pink colored Co(H2O)6(2+) after neutralization. Greenish blue and pink are two complementary colors with a strong contrast. As a certain amount of acid is introduced to the Co-complex sensor, a portion of greenis… Show more

“…Therefore, the effect on basic environmental conditions such as pH, relative humidity, and temperature is insignificant. However, it should be noted that colorimetric sensor performance under normal conditions can be affected by the aforementioned environmental factors 89,90 . Thus, it is important to consider these environmental and mechanical factors when designing and testing colorimetric sensors 91–93 .…”

“…However, it should be noted that colorimetric sensor performance under normal conditions can be affected by the aforementioned environmental factors. 89,90 Thus, it is important to consider these environmental and mechanical factors when designing and testing colorimetric sensors. [91][92][93] Considering these perspectives, several research results on detecting SO 2 have been compared with our work (Table 1).…”

Digital colorimetric sensing for real‐time gas monitoring for smart green energy system

“…Therefore, the effect on basic environmental conditions such as pH, relative humidity, and temperature is insignificant. However, it should be noted that colorimetric sensor performance under normal conditions can be affected by the aforementioned environmental factors 89,90 . Thus, it is important to consider these environmental and mechanical factors when designing and testing colorimetric sensors 91–93 .…”

“…However, it should be noted that colorimetric sensor performance under normal conditions can be affected by the aforementioned environmental factors. 89,90 Thus, it is important to consider these environmental and mechanical factors when designing and testing colorimetric sensors. [91][92][93] Considering these perspectives, several research results on detecting SO 2 have been compared with our work (Table 1).…”

Digital colorimetric sensing for real‐time gas monitoring for smart green energy system

“…AuNPs are advantageous as colorimetric transducers for water pollutant detection as they exhibit relatively low cost, low toxicity, high stability, facile processability, and unique optical properties. In general, colorimetric sensors do not require bulky and expensive analysis instruments such as Fourier transform infrared spectroscopy or Raman spectroscopy. − From that point of view, metal nanomaterials, including AuNPs, have been commonly used as sensing probes in the food, pharmaceutical, environmental, and biological fields due to their cost effectiveness . For example, research has shown that arsenic­(V) can be detected inexpensively ($0.03 per test) using a colorimetric dipstick method .…”

Gold Nanoparticles as Exquisite Colorimetric Transducers for Water Pollutant Detection

“…In recent years, analytical chemists have made considerable efforts toward developing new methods for determining alkalinity. Van der Schoot used Coulomb titration to measure the charge at a specified pH and determine the acid–base concentration. − Wiorek et al developed an alkalinity sensor based on the linear relation between the charge released by a PANI membrane and the bicarbonate concentration in the sample. , Cho et al reported a cobalt complex sensor that quantifies the acidity in the sample through color change . Nogueira et al used a natural pH indicator derived from Rosa roxburghii peel and a smartphone app called Photometrix to conduct quantitative analysis of the color of the wax paper microarea and determine the concentration of acid and base .…”

A New “Mix and Measure” Method for Rapid Quantitative Determination of Alkalinity Based on Proton Equilibrium and Definite Integral of Buffer Capacity