QuantaCase stands out from other anti-radiation cases

The QuantaCase stands out from other anti-radiation cases primarily due to its design philosophy, which focuses on deflection of radiation away from the user without interfering with signal strength or compromising antenna performance. It avoids common design flaws found in competitors that can inadvertently increase radiation exposure.

Key distinctions of the QuantaCase include:

• Avoidance of Signal Interference: Unlike some cases that use metal plates, loops, or multiple wallet slots, which can force a phone to work harder and emit more radiation to maintain a signal, the QuantaCase is ultra-thin and metal-free (no metal loops or detachable parts). This ensures the phone operates at intended power levels, reducing overall emissions.
• Targeted Deflection, not Absorption: The case uses highly conductive materials in its front flip cover to deflect RF energy away from the body, rather than attempting to absorb it (which can sometimes be less effective or interfere with the phone’s function).
• Shielded Speaker Hole: The front cover features a specifically engineered shielded speaker hole, which is crucial for blocking high-frequency 5G radiation from reaching the user’s ear during a call while the flap is closed. Many competitor cases have unshielded speaker holes or large gaps that compromise safety.
• Optimized Wallet Feature: It features only a single RFID-blocking card slot. This is based on research suggesting that multiple card slots add bulk and make it less likely for users to position the shielding cover correctly during use, thereby reducing the case’s effectiveness.
• User Education and Functionality: QuantaCase provides clear instructions on proper usage (e.g., closing the flap during calls, using speakerphone, facing the shielded side toward the body in a pocket) to maximize protection. It also includes a built-in stand to encourage hands-free use at a safe distance.
• Verifiable Shielding: The design allows users to easily verify the conductivity of the shielding material with a simple ohmmeter, offering transparency and proof of the shield’s presence, something not easily done with other cases without destroying them.