pH-dependent color response of cellulose-based time-temperature indicators impregnated with red cabbage extract

Abstract: Color-based time-temperature indicators (TTIs) can show the time and temperature changes of an environment with a visually recognizable color change. Made from natural dyes, these TTIs are simple, inexpensive and sustainable. In this study, cellulose-based TTI labels were prepared with red cabbage extract of pH2, pH7 and pH9 to determine how pH alter the response of the labels to time and temperature changes. This study also aimed to determine the relationship between color change and time at different tempera… Show more

“…Heat-induced color changes are permanent and irreversible ( Burkinshaw and Towns, 1998 ; Halász et al., 2023 ). Anthocyanins stored in acylated form are more stable at different temperatures than non-acylated anthocyanins ( Leonarski et al., 2022 ; Luo et al., 2022 ).…”

Anthocyanins in metabolites of purple corn

“…Heat-induced color changes are permanent and irreversible ( Burkinshaw and Towns, 1998 ; Halász et al., 2023 ). Anthocyanins stored in acylated form are more stable at different temperatures than non-acylated anthocyanins ( Leonarski et al., 2022 ; Luo et al., 2022 ).…”

Anthocyanins in metabolites of purple corn

“…In neutral solution (pH 7), flavylium cations are deprotonated to a quinoidal base (A), which is observed as a purple colour ed species. 35,36 At pH 8-9, the quinoidal base is ionized, and so changes colour to blue. At pH 10-11, it changes to green.…”

Exploring Purple Sweet Potato Pigment as An Eco-Friendly Titration Indicator for Acid Determination

“…This combination was added to polyvinyl alcohol and sodium carboxy methyl cellulose matrix that changed its color form pink to green when the pH of pork increased to 6.05 from 5.99 within 8 hours. 71 Red cabbage anthocyanins were also employed as time–temperature freshness indicators in a cellulose matrix. 72 A fluorescent pH indicator was developed using Lycium ruthencium anthocyanins and carbon dots embedded in a cellulose nanofiber/polyvinyl alcohol matrix which changed its color from pink to blue to green to yellow when applied to monitor the freshness of shrimps.…”

Plant phytochemicals as bio-responsive compounds in smart packaging for food spoilage detection: a comprehensive review