Focus Sector
Smart Packaging Technologies
Revolutionising Packaging with Sustainability and Intelligence
The packaging industry is under increasing pressure to deliver solutions that are both sustainable and intelligent — packaging that is easily recyclable or reusable while providing real-time data and enhanced monitoring capabilities. At AMD, we are at the forefront of this transformation, creating advanced materials that not only reduce waste but also optimise efficiency across the entire logistics chain.
Our mission is clear: to minimize wastage from source to consumer, particularly in food and pharmaceutical sectors, through innovative smart packaging technologies.
Leading the Way in Smart, Sustainable Packaging
Since our founding in 2017, AMD has focused on pioneering high-functionality materials that are truly sustainable—not just in their composition but in their lifecycle impact. We believe that adding data, identification, and sensor capabilities to packaging should not compromise its recyclability or cost-effectiveness.
All AMD technologies are designed for:
Cost-effective, volume-scale printing
Standard manufacturing compatibility
Low-cost, recyclable materials
Core Capabilities for Smart Packaging:
Cold Supply Chain Resilience: Ensuring optimal conditions for food and pharmaceuticals.
Product Condition Monitoring: Reducing wastage with package sensors.
Multiple Form Factors: Customizable for diverse packaging solutions.
Manufacturability & Recycling: Designed for seamless integration into existing systems.
Cost-Effective Solutions: Enabling mass-market scalability and higher ROI.
Non-Metallic Sustainable Printed RFID Inlays
Smarter Tracking, Greener Footprint
AMD's printed water-based nanocarbon RFID antenna solution redefines sustainable tracking:
Sustainable: Printable on compostable substrates like paper or card; can be recycled or composted.
Flexible & Stretchable: Carbon inks provide superior durability compared to metal-based alternatives.
Non-Metallic: Ideal for food and pharma sectors where metal detection is necessary.
Detuning Tolerance: Enhanced performance in challenging environments, including proximity to conductive materials (e.g., packaged meat).
Roll-to-Roll Printing for High-Volume Applications:
Compatible with rotary screen printing.
Suitable for labels, direct antenna print on roll-compatible packaging, and cartons.
Works seamlessly with paper/card-based cartons, polymers/plastics, lidding films, and vacuum packs.
Highly adaptable formulations for diverse substrates and use cases.
Printed Colorimetric Time Temperature Indicators (TTIs)
Ensuring Freshness, Preserving Quality
Cost-effective Time Temperature Indicators (TTIs) are critical for cold chain monitoring across various industries. AMD's printed colorimetric TTI technology is setting a new standard by making this essential monitoring tool accessible for mass-market use.
Key Features:
Low-Cost, High-Volume Production: Printable directly onto labels or packaging for maximum scalability.
Wide Range of Applications: From food and pharmaceuticals to industrial goods.
Ubiquitous Monitoring: Addressing the cost barriers that have historically limited widespread adoption.
Proven Success: Already adopted for Vaccine Vial Monitoring (VVM) by the WHO, proving its reliability and cost-efficiency.
AMD’s innovative approach unlocks cost-effective and easily manufactured TTI solutions, paving the way for broader adoption in global markets.
Building a Smarter, More Sustainable Future
AMD is redefining what’s possible in smart packaging through innovative materials and sustainable manufacturing. By integrating real-time monitoring and data intelligence into cost-effective, recyclable solutions, we are enabling a new era of efficiency and sustainability in packaging.
Our strategic collaborations are driving global adoption of smart packaging that not only reduces waste but also optimises logistics, enhances traceability, and improves consumer experiences.
Join us as we lead the transformation of the packaging industry—smarter, greener, and more sustainable.
