Add to ORKGA sweetness sensor with lipid/polymer membranes has been developed for evaluating the sweetness of sugars and sugar alcohols. Among the constituents of lipid/polymer membranes, gallic acid has been used as the main substance involved in sucrose response in our group. In this study, as a step toward understanding the response mechanism of the sweetness sensor, functional groups of gallic acid, namely, carboxyl and hydroxyl groups, were focused on. The results demonstrated that the carboxyl group is essential for the sweetness sensor, whereas the hydroxyl group is not always necessary for the sucrose response. It was also revealed that the phosphate group may be a substitute for the carboxyl group. Then, for one of the sensors with the highes...
This study investigates the sweetness properties and other sensory attributes of ten commercial and ...
A taste sensor utilizes lipid/polymer membranes for measuring taste. The sensor was improved to meas...
The lipid phosphoric acid di-n-decyl ester (PADE) has played an important role in the development of...
Key words: sweetness sensor, lipid/polymer membrane, carboxyl group, hydroxyl group A sweetness sens...
Nowadays, the utilization of a taste sensor with lipid/polymer membranes is one of the most accurate...
We studied the selectivity control in a sweetness sensor with lipid/polymer membranes. Sweet tasting...
Lipid/polymer membranes were modified with a phenolic compound, gallic acid, to obtain a high sensit...
We have developed a multichannel taste sensor with lipid membranes which can detect and quantify tas...
Taste evaluation technology has been developed by several methods, such as sensory tests, electronic...
Lipid membranes using silicone rubber (SR) were developed by mixing only lipids in SR. In this study...
Lipid and ion exchange cellulose were examined for transducer materials of a taste sensor. A biomemb...
Lipid and ion exchange cellulose were examined for transducer materials of a taste sensor. A biomemb...
A taste sensor using lipid-polymer membranes has been developed to evaluate the taste of foods, beve...
Abstract. There are reports of fabrication of taste sensor by adsorbing lipids into Millipore filter...
In food industry, different types of sensors are used for characterizing and quantifying taste subst...
This study investigates the sweetness properties and other sensory attributes of ten commercial and ...
A taste sensor utilizes lipid/polymer membranes for measuring taste. The sensor was improved to meas...
The lipid phosphoric acid di-n-decyl ester (PADE) has played an important role in the development of...
Key words: sweetness sensor, lipid/polymer membrane, carboxyl group, hydroxyl group A sweetness sens...
Nowadays, the utilization of a taste sensor with lipid/polymer membranes is one of the most accurate...
We studied the selectivity control in a sweetness sensor with lipid/polymer membranes. Sweet tasting...
Lipid/polymer membranes were modified with a phenolic compound, gallic acid, to obtain a high sensit...
We have developed a multichannel taste sensor with lipid membranes which can detect and quantify tas...
Taste evaluation technology has been developed by several methods, such as sensory tests, electronic...
Lipid membranes using silicone rubber (SR) were developed by mixing only lipids in SR. In this study...
Lipid and ion exchange cellulose were examined for transducer materials of a taste sensor. A biomemb...
Lipid and ion exchange cellulose were examined for transducer materials of a taste sensor. A biomemb...
A taste sensor using lipid-polymer membranes has been developed to evaluate the taste of foods, beve...
Abstract. There are reports of fabrication of taste sensor by adsorbing lipids into Millipore filter...
In food industry, different types of sensors are used for characterizing and quantifying taste subst...
This study investigates the sweetness properties and other sensory attributes of ten commercial and ...
A taste sensor utilizes lipid/polymer membranes for measuring taste. The sensor was improved to meas...
The lipid phosphoric acid di-n-decyl ester (PADE) has played an important role in the development of...