Graphene-Info: the graphene experts

Graphene is the strongest, thinnest and most conductive material known to man, that can unlock countless applications in electronics, energy, composite materials, medicine, aerospace and more. Graphene-Info, established in 2009, is the world's leading graphene industry portal - offering a web publication, newsletter, market insights, market reports, and industry connections.

Solidion Technology updates on third quarter 2024 results

Solidion Technology, an advanced silicon anode and battery technology materials provider, has announced its operational and financial results for the third quarter of 2024. The Company declared a $4.2 million loss from continuing operations, including increased spending on third-party validation testing for automakers. Net Loss was $6,636,679. 

Unable to view the image, Please provide a valid URL.

Solidion Technology also mentioned technological and business developments. Among the technological advancements were: developing and securing a newly granted U.S. patent for technology enabling 5-minute charging of lithium batteries across all climates by leveraging a graphene-based heat spreader for optimal battery temperature control, expanding the Company's industry-leading intellectual property portfolio 1 with 20 new U.S. patents granted this year and achieving third-party validation for the Company's cost-effective process that eliminates the need for toxic silane gas and CVD techniques. 

Read the full story Posted: Nov 21,2024

Graphjet opens green graphite plant in Malaysia

Malaysia-headquartered Graphjet Technology, developer of technologies to produce graphite and graphene from agricultural waste, has announces it is starting the 'world’s largest commercial-scale green graphite facility outside China'.

The more than 8,300-sq.-metre plant in Kuala Lumpur has the capacity to recycle up to 9,000 tonnes of palm kernel shells annually for as much as 3,000 tonnes of battery-grade graphite per year, Graphjet said in a recent statement. The output can make enough batteries for 40,000 electric vehicles a year.  

Read the full story Posted: Nov 20,2024

Levidian launches second-generation LOOP decarbonization technology

British climate technology firm Levidian has launched its second-generation LOOP technology, which will aim to achieve industrial levels of production of high-quality graphene. Levidian’s LOOP system provides heavy emitters and hard-to-abate industries such as landfill and aluminium producers with a  route to both decarbonize their processes and open up new revenue streams from the graphene and hydrogen that are produced.

At the heart of LOOP is a patented ‘nozzle’ where microwave energy is applied to crack methane into its component parts, creating clean hydrogen and capturing carbon in the form of high purity graphene. A single nozzle will be capable of producing around 15 tonnes of graphene a year – enough, 
for example, to transform the performance of thousands of electric vehicles with graphene-enhanced batteries and tires so that cars can go further for 
longer with less impact on the environment.

Read the full story Posted: Nov 20,2024

NETL team converts coal tar pitch into graphene for improved supercapacitors

Researchers at NETL, a U.S. Department of Energy national laboratory, have developed a low-cost process for converting coal tar waste into high-quality graphene. The team stressed that the resulting can increase the performance of energy-storing supercapacitor systems by up to 55%.

Schematic illustration of the synthesis process of 3D graphene. Image from: Small Methods

According to NETL’s Christopher Matranga, one of the authors of the study, graphene has long been considered an ideal supercapacitor electrode material, but its use in commercial devices is limited because there are few methods for producing high-quality graphene at a large scale at a low cost.

Read the full story Posted: Nov 19,2024

Sparc Technologies receives USD$730,000 R&D tax refund

Sparc Technologies has secured AUD$1.12 million (around USD$730,000) in an R&D tax refund, under the Australian Government's R&D Tax Incentive, relating to the 2024 financial year. 

It was stated that this financial boost comes as a recognition of Sparc’s commitment to advancing sustainable technologies in high-performance coatings and polymers. This refund will strengthen the company’s cash position thereby providing continued support for Sparc's investment in Sparc Hydrogen, ecosparc® field trials and its work developing graphene based additives for high performance coatings and polymers

Read the full story Posted: Nov 19,2024

Researchers demonstrate on-chip phonon-enhanced IR near-field detection of molecular vibrations

A team of Spain-based researchers has developed a highly sensitive detector for identifying molecules via their infrared vibrational “fingerprint”. The new detector converts incident infrared light into ultra-confined "nanolight" in the form of phonon polaritons within the detector´s active area. This mechanism serves two crucial purposes: it improves the detector's overall sensitivity and enhances the vibrational fingerprint of nanometer-thin molecular layer placed on top of the detector, allowing this molecular fingerprint to be more easily detected and analyzed. 

The compact design and room-temperature operation of the device hold promise for developing ultra-compact platforms for molecular and gas sensing applications.

Read the full story Posted: Nov 18,2024

Researchers 3D print unique graphene frameworks for enhanced EMI shielding

Researchers from China's Nanjing University of Science and Technology and Chinese Academy of Sciences (CAS) have developed lightweight and structurally controllable 3D reduced graphene oxide frameworks decorated with magnetic components (MRGO frameworks) via 3D printing technology to tailor EMI shielding properties. 

The team explains that by adjusting the preparation conditions of the MRGO frameworks, such as inter-filament spacing, composition, and pyrolysis temperature, the graphitization degree and transmission paths are influenced, enabling electrical conductivity and magnetic property, and ensuring excellent EMI shielding performance.

Read the full story Posted: Nov 17,2024