The Cold Chain (CC) is a system containing a range of processes like shipping ‘temperature-sensitive’ items by special kind of packaging along a supply chain, and strategic planning to ensure the safety and integrity of items that are shipped. The items of CC are transported in many ways, such as refrigerated vehicles and railcars, cargo ships, reefers, and air freight. For many years, the ‘Cold’ element of the system, that is, refrigerators, powered by gas or kerosene was considered the most appropriate option in areas without reliable energy sources like electricity. Nevertheless, numerous problems with these tools have made it both difficult and costly to maintain temperatures within the safe range. In the 1980s, solar refrigerators powered by batteries were introduced as a solution to those problems. But the batteries they relied on required regular maintenance, had a lifespan of only three to five years, and replacements of quality were costly and sometimes hard to get. A new solution has emerged in recent years, the design of a solar refrigerator, removing the need for costly and unreliable energy storage batteries used to power solar refrigerators. This technology uses solar energy to freeze cold storage material directly and then uses the energy stored in the frozen bank to keep the refrigerator cool at night and on cloudy days. The new ICT technology offers greater visibility and control over the entire CC network operated by the solar. Using data in real-time, ICT component Technology called the Internet of Things (IoT) will allow quicker, more appropriate reactions as well as much more informed decisions. This literature analysis is created by revising a good number of papers published in peer-reviewed journals and online sources making use of secondary data obtained. The goal of the study is to explain the use of applications of ICT in the CC System and find research gaps.