Abstract
This paper exhibits a thorough review of the use of impedimetric sensors for the analysis of food quality. It helps to understand the contribution of some of the major types of impedimetric sensors that are used for this application. The deployment of impedimetric sensing prototypes has been advantageous due to their wide linear range of responses, detection of the target analyte at low concentrations, good stability, high accuracy and high reproducibility in the results. The choice of these sensors was classified on the basis of structure and the conductive material used to develop them. The first category included the use of nanomaterials such as graphene and metallic nanowires used to form the sensing devices. Different forms of graphene nanoparticles, such as nano-hybrids, nanosheets, and nano-powders, have been largely used to sense biomolecules in the micro-molar range. The use of conductive materials such as gold, copper, tungsten and tin to develop nanowire-based prototypes for the inspection of food quality has also been shown. The second category was based on conventional electromechanical circuits such as electronic noses and other smart systems. Within this sector, the standardized systems, such as electronic noses, and LC circuit -based systems have been explained. Finally, some of the challenges posed by the existing sensors have been listed out, along with an estimate of the increase in the number of sensors employed to assess food quality.
Highlights
The intervention of sensors in the application world has helped in developing the quality of life of human beings on a daily basis, starting with the popularization of semiconducting sensors, around three decades ago [1,2,3], which have been implemented primarily for industrial and environmental applications
One of theofinteresting sensing systems that have used to monitorbetween the foodthe quality and transponder circuits. This system was useful for products like meat and fish, where their storage based on radio frequency identification (RFID) sensors, as shown by Huang et al [131], where wireless sensors have been developed to determine the pH level in the food
This paper highlights the research work done on the inspection of food quality using impedimetric sensors
Summary
Shan He 1,2,† , Yang Yuan 1,† , Anindya Nag 3, *, Shilun Feng 4, *, Nasrin Afsarimanesh 3 , Tao Han 3 , Subhas Chandra Mukhopadhyay 5 and Dominic Rowan Organ 6. Flinders Institute of Nanoscale Science and Technology, College of Science and Engineering, Flinders University, Bedford Park, South Australia 5042, Australia. The contribution of the two authors are equal
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