A hybrid modular enclosure for mobile electronic devices reduces distractions while allowing partial access. The enclosure features a durable molded plastic frame with fabric panels, extended fabric extensions attached via glue or sewing for temporarily holding a tag-and-pin retainer to prevent content removal, and surfaces optimized for stickers and engraving such as school logos. Variable opacity (clear, semi-opaque, or opaque) is integrated into molded enclosure parts for customizable visibility. Modular points allow add-on components like added-function tags. Holes enable charging or limited interactions. The chamber holds multiple devices, smartwatches, earbuds, or wrapped phones. Molded plastic is non-porous for easy cleaning with solutions/wipes, addressing hygiene in shared use post-COVID and for future pathogens.

A RF (Radio Frequency) shielding container with an associated garment such as a jacket is described. The RF shielding container may comprise a pouch that holds and encapsulates an electronic mobile device such as a cell phone. The pouch is made of multiple layers of fabric including metalized layers that effectively block the reception and/or transmission of RF signals to and from the cell phone. A sealing mechanism formed on the pouch ensures the blockage of RF signals while offering ease of use while in combat. A garment such as a jacket or pants is designed to have internal pockets or cavities which can hold the RF shielding container. The RF shielding container May remain in the jacket during use, as well as when the mobile device is placed into or retrieved from the container.

An EMF radiation repelling device for inhibit transference of electromagnetic radiation signals to and from electronic devices includes a cloth comprising a flexible material wherein the cloth is foldable into a pouch configuration. The pouch configuration is designed to be positionable within a pocket of an article of clothing wherein the cloth is designed to line the pocket of the article of clothing while the cloth is folded in the pouch configuration and when the cloth is positioned within the pocket.

The flexible material includes a conductive material with high decibel attenuation wherein the conductive material is designed to inhibit transfer of electromagnetic frequencies through the cloth. A coupler is coupled to the cloth to releasably retain the cloth in the pouch configuration.

Described herein is electromagnetic shielding that is configured to attenuate electromagnetic interference (EMI) by at least a threshold amount when the EMI has a frequency within a predefined frequency range. The electromagnetic shielding includes a layer of metal, such as aluminum foil, and a layer of thermoplastic polymer fabric (such as woven polyethylene fabric), where the electromagnetic shielding has several apertures that extend therethrough. The electromagnetic shielding is at least partially draped over electronic equipment that is to be shielded from EMI.