GLOBAL ANTI-RADIATION PATCH MARKET SEEN SOARING 6.4% GROWTH TO REACH USD 398.58 MILLION BY 2030, PROJECTS UNIVDATOS MARKET INSIGHTS
- Himanshu Patni
- June 25, 2024
- NEWS, TELECOM & IT
- Anti-Radiation Patch Market, Anti-Radiation Patch Market Size
- 0 Comments
Key Highlights of the Report:
- In 2022, global smartphone shipments reached 1.28 billion units, representing a 5.9% year-over-year increase.
- Wearable device shipments reached 444.7 million units in 2021, indicating a 25.1% growth compared to the previous year.
- As of 2021, around 3.8 billion people worldwide own and use smartphones, which accounts for nearly half of the global population.
- As of October 2021, more than 320 operators had commercially launched 5G networks across 136 countries.
- By 2025, it is estimated that there will be 3.6 billion 5G subscriptions globally, accounting for about 40% of the projected global population coverage.
- In the United States, it is projected that 5G networks will cover 75% of the population by 2025, resulting in an economic impact of $1.2 trillion.
- “Exposure to electromagnetic fields from laptop use and its potential impact on reproductive health” – Examining the effects of laptop usage, this study explored the potential impact on reproductive health. It suggested that exposure to the EMFs emitted by laptops, especially when used close to the body, may have negative effects on fertility and reproductive outcomes.
According to a new report by Univdatos Market Insights, the Anti-Radiation Patch Market is expected to reach USD 398.58 Billion in 2030 by growing at a CAGR of 6.4%. Furthermore, the widespread use of electronic devices such as smartphones, laptops, tablets, and Wi-Fi routers has led to a surge in exposure to electromagnetic radiation. This rising use of electronic devices is driving the demand for anti-radiation patches. For instance, in March 2022, as per the report published by the National Cancer Institute, cell phones emitted nonionizing radiation in the radiofrequency range, which is low frequency and low energy. This type of radiation is not harmful to DNA. In contrast, ionizing radiation, like x-rays and cosmic rays, has high frequency and energy levels and can potentially damage DNA, increasing the risk of cancer. Moreover, studies have also shown that exposure to electromagnetic radiation may have adverse effects on fertility and pregnancy. This has led to an increased demand for anti-radiation patches, particularly among individuals planning to conceive or those who are pregnant.
The report suggests that the rising penetration of high-emitting networks such as 5G globally is one of the major factors driving the Anti-Radiation Patch Market during the forthcoming years. The anti-radiation patch is an innovative technological device designed to minimize the potential harm caused by electromagnetic radiation emitted from various electronic devices such as smartphones, laptops, tablets, and other wireless devices. This patch utilizes advanced materials and sophisticated engineering principles to counteract and neutralize the harmful effects of radiation on the human body. The primary purpose of an anti-radiation patch is to create a barrier between the electronic device and the user, preventing or reducing the absorption of electromagnetic radiation. It works by emitting a counterbalancing frequency that is known to cancel out or reduce the intensity of the radiation emitted by the device. This process occurs through a phenomenon called electromagnetic interference, where the patch creates an opposite electromagnetic field that interferes with the original radiation.
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Figure 1: Growing 5 G-based Economy
The expanding use of Anti-Radiation Patch in Smartphones is Generating Maximum Traction for Anti-Radiation Patches in the Market.
In recent times, the use of electronic devices and wearables has witnessed an unprecedented surge. Smartphones have become ubiquitous, and people rely on them for communication, work, and entertainment. Additionally, wearable devices such as smartwatches, fitness trackers, and augmented reality glasses have gained popularity for their various functionalities. These devices emit electromagnetic radiation, commonly known as radiofrequency (RF) radiation, which is a type of non-ionizing radiation. As the use of electronic devices continues to expand, so does the awareness about potential health risks associated with prolonged exposure to RF radiation. Some studies suggest that long-term exposure to high levels may increase the risk of certain health issues, including cancer, infertility, and neurological disorders. This has raised concerns among health-conscious individuals worldwide, leading to a greater demand for protection against these potential risks. Anti-radiation patches have emerged as a popular solution for those seeking to mitigate the potential risks of RF radiation from electronic devices and wearables. These patches are designed to absorb, deflect, or neutralize the harmful radiation emitted by these devices, thereby reducing exposure.
Conclusion
In conclusion, the widespread use of electronic devices such as smartphones, laptops, tablets, and Wi-Fi routers has led to a surge in exposure to electromagnetic radiation. This rising use of electronic devices is driving the demand for anti-radiation patches.
Key Offerings of the Report
Market Size, Trends, & Forecast by Revenue | 2023−2030
Market Dynamics – Leading Trends, Growth Drivers, Restraints, and Investment Opportunities
Market Segmentation – A detailed analysis by Type, and Application
Competitive Landscape – Top Key Vendors and Other Prominent Vendors
