viewAdvanced Material Development

Advanced Material Development targets forefront of graphene revolution


  • Invests in and develops nanomaterial platform technologies
  • Collaborating with multiple universities
  • Graphene potentially important material for electronic devices
Advanced Material Development - Advanced Material Development targets forefront of graphene revolution

What it does

Advanced Material Development (AMD) is a private company that invests in and develops applications based on its proprietary nanomaterial platform technologies.

The company is developing intellectual property, funding material science university research groups and is also collaborating with governmental and business partners to solve challenges in industries such as defence, aerospace, automotive, retail, RFID, printed electronics, chemicals and pharmaceuticals.

AMD is currently collaborating with the University of Texas at Austin as well as the universities of Sussex and Surrey which have teams currently working on Conductively Optimized Graphite (COG) nano-material.

AMD has said it will present its IP to market through a variety of profitable commercial arrangements, adding that its patent protected liquid processing technology underpins the development of a variety of applications in key areas including Advanced Sensors, Flexible Electronics, Functional Coatings, Security (including anti-counterfeiting), and Structural Health Monitoring.

Graphene's low cost of production, high performance and environmental sustainability make it a potentially important material for use in electronic devices.

How it is doing

In March, AMD moved up a gear when it brought in an IP heavy-hitter, Dr Anthony Thomson as chief executive of Life Science subsidiary CoM3D.

Thomson, who will also advise on IP commercialisation and join AMD's advisory panel, has held numerous roles in the technology, automotive, health, capital markets and University sectors, most recently managing an exit to US giant Qualcomm.

Specifically, he was CBO of Elephants Child Advisory, chief strategy officer at Isansys Lifecare and held senior roles at Qualcomm; University of Auckland; Euronext; ABN AMRO; BNP Paribas; LIFFE and Chesterton.

This was followed in April by another high level appointment when Dr Izabela Jurewicz, a teaching fellow in soft matter science at the University of Surrey and principal investigator of AMD’s work at the university, joined the company’s advisory panel.

Jurewicz is also a former student of and researcher for AMD’s chief scientific advisor, Professor Alan Dalton, and maintains close links with his team at the University of Sussex.

Meanwhile, the company’s partnership with The University of Texas at Austin is focused on pharmaceutical nanotechnology and seeks to develop methods to make drugs more soluble and usable.

The collaboration is formalised through the CoM3D and involves new ways of producing and delivering drugs to patients, including via 3D printing personalised medicines.

AMD has so far led a funding round for two projects, one of which expands into the current fight against viral pathogens like coronavirus.

The coronavirus project involves the development of a treatment system that aims to deliver drugs directly into the lungs of patients suffering from the disease.

Compared with existing methods of producing nanoparticles for drugs, such as emulsion evaporation, CoM3D said advanced 3D printing technology can produce specific sized designed particles needed for drug delivery “in a faster more efficient process, suitable for treatment and vaccination against future seasonal and novel respiratory viruses”.

More recently in May, the company also revealed that it is holding talks with potential partners in the RFID antenna industry as progress continues to be made in developing its COG nano-material.

In a paper published in the Advanced Material Technology scientific journal describing some of the research from the company’s teams at Sussex and Surrey, the teams assessed the performance of the COG antenna in a practical system using an RFID reader, whereby the transmitter power is progressively increased until the tag is successfully read.

The teams described in the publication how an early-stage prototype successfully achieved read distances of more than 2m in lab conditions, with theoretical ranges beyond 11 metres.

Inflexion points

  • Developments in talks with potential RFID antenna partners
  • Possible treatment system for coronavirus
  • Other uses of graphite for other sectors


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