RF Safe promotes an education-first, zero-paid-ad marketing approach for its EMF safety products, positioning itself against what it describes as a market full of overhyped or misleading “anti-radiation” gadgets. The article highlights RF Safe’s resources (e.g., a large study library and SAR tools) and argues its products (notably the QuantaCase) align with “physics” and avoid deceptive claims. It also repeats the founder’s personal story linking a family tragedy to prenatal EMF exposure and references various external claims (e.g., WHO animal findings, court criticism of FCC limits) without providing primary documentation in the text.

RF Safe publishes a commentary describing a public feud between Dr. Jack Kruse and RF Safe founder John Coates over how to address health concerns attributed to non-native electromagnetic fields (nnEMFs), especially regarding children. The piece portrays Kruse as emphasizing personal “light/circadian” biohacks and Coates as pushing technology and policy changes such as LiFi adoption and repealing/altering telecom-related legal constraints. It includes numerous claims about EMF-related harms and references to research (e.g., NTP/Ramazzini, a Henry Lai meta-analysis) but presents them within an advocacy narrative rather than as a balanced review.

This RF Safe article argues that Section 704(b) of the Telecommunications Act of 1996 (47 U.S.C. §332(c)(7)(B)(iv)) functions as a federal “gag clause” that prevents state and local governments from considering health or environmental effects of RF emissions when making wireless facility siting decisions, so long as FCC exposure limits are met. It contends this preemption suppresses public-health arguments in local hearings and court challenges and frames the provision as constitutionally problematic under the First, Fifth, and Tenth Amendments. The piece proposes a legal strategy centered on Fifth Amendment takings claims, analogizing RF exposure to other intangible intrusions (e.g., noise, smoke) discussed in past U.S. Supreme Court cases.

This two-sample Mendelian randomization study examined whether duration of mobile phone use is causally related to aneurysmal subarachnoid hemorrhage using large European GWAS datasets. The primary MR analysis reported that excessive duration of mobile phone use was associated with higher aSAH risk, and sensitivity analyses were described as supportive. The authors conclude the findings have potential clinical, public health, and policy implications.

This cross-sectional observational study assessed sperm motility after one hour of in vitro exposure of semen samples to EMFs from different laboratory sources in an IVF setting. It reports a statistically significant reduction in progressive sperm motility after exposure to mobile phones and Wi-Fi repeaters, while other EMF-emitting equipment showed no significant effect. The authors interpret the findings as indicating a potential negative impact of specific RF sources and call for further research, alongside practical mitigation suggestions in IVF laboratories.

This paper proposes a new methodology to better assess indoor RF-EMF exposure in buildings near telecommunication base station antennas by refining measurement-point selection. Implemented in four multi-storey buildings in Natal, Brazil, indoor electric field peaks and averages were reported to be substantially higher than ground-level measurements. Although the highest indoor levels remained below ICNIRP recommended limits, the authors argue current regulatory evaluation methods may underestimate indoor exposure in certain building locations.

This exposure assessment measured RF power density across different floors of a high-rise university building using a spectrum analyser and log-periodic antenna. Power density decreased from the ground to the third floor but peaked on the fourth (top) floor. The 900 MHz band showed the highest reported power density (1.16E-03 W/m2), and the authors suggest higher-floor occupants may experience higher RF exposure from nearby communication towers.

This exposure-assessment study uses FDTD simulations to evaluate auto-induced downlink RF-EMF exposure at 3.5 GHz when downlink energy is focused toward user equipment near the head. Exposure varied substantially by device position (ear, eyes, nose) and by the precoding technique used. The authors report that the choice of normalization strategy can produce cases where ICNIRP basic restrictions are exceeded even when reference levels appear compliant, motivating a precautionary framing for compliance assessment.

This rat study examined repeated 3.5 GHz RF exposure (2 hours/day, 5 days/week for 30 days) and thyroid-related outcomes, with and without quercetin. The abstract reports altered thyroid hormones (lower T3/T4, higher TSH) and increased oxidative stress in thyroid tissue after RF exposure. Quercetin appeared partially protective, though effects were not uniformly statistically significant, and SAR simulations indicated relatively higher absorption in the thyroid region.

This animal study measured core body temperature in free-moving male and female Sprague Dawley rats during and after 3-hour exposure to 1.95 GHz RF-EMF at multiple whole-body average SAR levels. A measurable thermal response was reported at 4 W/kg, while lower SAR conditions showed smaller or no significant temperature increases. The authors note that temperature dropped quickly after exposure ended, implying post-exposure measurements may underestimate peak heating.

This study simulated 1 g and 10 g peak spatial SAR (psSAR) in classroom settings where each student uses a Wi‑Fi laptop at 2.45 GHz and 100 mW. Maximum simulated psSAR values were reported to be below ICNIRP and IEEE recommended limits, but desk spacing and multi-user configurations could substantially increase psSAR compared with a single-user setup. The authors emphasize that long-term low-level exposure, particularly for children, remains a concern and recommend mitigation via increased spacing and wired connections.

This study reports that terahertz radiation decreased a neuronal membrane area ratio (cytosol relative to protruding membrane area) beginning on the first day of exposure and persisting during the exposure period. It further reports altered neuronal firing/discharge patterns and increased peak postsynaptic currents associated with the morphology change, supported by a kinetic model. The authors frame the findings as indicating significant effects of terahertz-frequency EMF on neural health and function and suggest potential neuromodulation applications.