Graphene applications: what is graphene used for?

Researchers from ICFO, ETH Zurich, University of Ioannina, Catalan Institute of Nanoscience and Nanotechnology (ICN2), Arizona State University and Japan's National Institute for Materials Science have demonstrated the first graphene‑based sub‑terahertz (sub‑THz) direct receivers that simultaneously deliver multi‑gigabit‑per‑second data rates, ultra‑compact footprint, CMOS compatibility, and near‑zero operating power - making graphene a valid hardware candidate for 6G wireless communications. 

They operate at sub‑THz carrier frequencies to meet the demanding requirements of future links, achieving multi‑gigabit‑per‑second wireless data transmission over distances of around 3 m at room temperature, with a fully electronic, zero‑bias detection scheme and a device area of only about 0.018 mm².

NACON, a premium gaming gear company and parent of the RIG audio brand, has unveiled its latest release in their R-SERIES of headsets – the RIG R5 SPEAR MAX HD. Purpose-built for PC gaming, the R5 MAX HD features innovative GrapheneQ™ drivers from Ora, setting a new standard for studio-grade game audio.

Custom-tuned for first-person shooters, the R5 MAX HD are powered by Ora’s patented GrapheneQ™ technology. Constructed from pure graphene, the GrapheneQ membrane offers the ideal mechanical properties for headphone speakers. The material’s unique combination of high stiffness and low density allows for improved audio reproduction and ultra-low distortion. In gaming, these qualities translate to improved spatial audio, allowing players to localize sounds and objects with enhanced speed and precision.

VIVO Defence Services, which provides maintenance services on behalf of the MOD’s Defence Infrastructure Organisation to more than 27,000 military homes in southeast and southwest England, is conducting data-monitored testing at two military housing sites in Fareham, Hampshire, over the next six months. If successful, the technology, developed by British company NexGen Heating, could be rolled out across additional homes managed by VIVO across the region.

The technology uses electric graphene heated paper - a toughened white wallpaper that can be attached to walls or ceilings. In this trial, it is being installed on the ceilings of the two Fareham homes. The graphene paper can be painted over, and uses an energy-efficient, low-voltage system that emits low-temperature far-infrared waves of directional, radiant heat, replicating the comfortable warmth of sunlight. This enables it to warm up objects and people rapidly - in just a few minutes - rather gradually heating the air as traditional radiators or wall-mounted heaters do. As a result, families only need to heat the spaces they are using, helping to reduce energy costs.

Graphene Composites USA (GC USA) has announced that its ultralight GC Patrol Shield® has become "the first and only rifle-rated ballistic shield to pass and receive third-party verification for rifle and shotgun rounds under the ASTM E3347-25 standard (Standard Specification for Ballistic-Resistant Shields Used by Law Enforcement Officers)".

Third-Party verified edge-shot protection and real-world durability at half the weight of conventional shields could have great potential for Law Enforcement safety.

U.S-based women's workwear brand Dovetail has launched a graphene-enhanced collection said to be “smarter, lighter, stronger and more comfortable than ever”. The brand's recently launched Graphene Collection is a line of work pants infused with graphene technology. The John Deere collaborator partnered with Chinese mill Freedom Denim for the 10 oz. and 13 oz. graphene denim used in the collection.

The graphene nanomaterial is "infused into each fiber at the molecular level, giving fabric a permanent boost in performance". Dovetail says the integration retains the original weight and stretch of the fibers while delivering “game-changing benefits” like strength and enhanced temperature regulation to keep wearers comfortable in any season.

South China University of Technology researchers have proposed a sustainable strategy to synthesize a series of FePO₄ wrapped by reduced graphene oxides (FePO4@rG_x (x = 0.05, 0.10 and 0.15) composites directly from waste LiFePO₄ batteries. 

This strategy not only provides closed-loop recycling of both cathode (LiFePO₄) and anode (graphite) materials, but also enhances performance via in situ rG wrapping. 

Black Swan Graphene has provided an update on its ongoing commercial initiatives, underscoring the success of its strategic approach to providing Graphene-Enhanced Masterbatch™ or GEM™ (“GEM“) to the polymer industry. This model, which involves working closely with distribution partners and masterbatch manufacturers, continues to demonstrate its value by supporting product adoption and maximizing market reach.

“We are incredibly excited to see our efforts and investments culminating in significant progress toward commercialization as our graphene gains traction in the industrial sector. As for many innovative products, the initial commercialization is paramount, as progress with prospective customers and production activities can provide supply security for eventual customers. As volumes expand, not only will the Company be able to compete more effectively in higher-volume applications, but lower production costs open doors to more price-sensitive markets. The path to commercialization success is now clearly within reach,” stated Michael Edwards, Chief Operating Officer of Black Swan.

Graphenest and Lohmann GmbH, a developer of adhesive technologies, have announced the signing of a joint-venture agreement to co-develop next-generation graphene-based adhesive systems for electromagnetic interference (EMI) shielding and thermal management applications.

This strategic collaboration will combine Graphenest’s proprietary graphene production technology and abilities with Lohmann’s adhesive formulation expertise to deliver highly conductive, high-performance adhesive solutions for electronics, aerospace, automotive, and industrial applications.

LayerLogic, a Swedish deeptech startup spun out of Chalmers University of Technology, has secured €470,000 in pre-seed funding to accelerate development of its real-time food contamination detection platform. The round was led by Scientifica Venture Capital and follows LayerLogic’s selection in the Super Sapiens Europe initiative.

Founded in 2024, LayerLogic originated within Chalmers’ Department of Quantum Device Physics, Microtechnology, and Nanoscience. The team combines engineering and academic expertise in graphene-based technologies. At the core of the company’s innovation is a portable biosensor that uses graphene field-effect transistors (gFETs) to detect foodborne pathogens. The surface of the sensor is functionalized with selective receptor molecules, enabling rapid identification of bacteria, viruses, fungi, and contaminant compounds.

Premier Graphene, formerly Premier Biomedical, has announced, along with its affiliate HGI Industrial Technologies SAPI, and Nevada Ballistic Armor Corp., its launch of a multinational joint venture producing highly protective body armor for military.

As part of this collaboration, Premier and HGI Industrial Technologies delivered armored plates for final testing to a Latin American country. The armored plates have already yielded promising results in controlled laboratory environments within the United States. These plates achieved NIJ certification, evidencing compliance with rigorous ballistic standards. Replication of such testing will be performed by such Latin American country’s military in the coming weeks.