For energy generation and storage. From laboratory breakthroughs to industrial scale — PHD Semicon's Lab-to-Fab-to-Market platform enables power harvesting where silicon cannot follow.
PHD Semicon operates across the full spectrum of printed semiconductor development — from fundamental scientific research to industrial fabrication and targeted market deployment. Our vertically integrated model gives partners a single capable platform to develop printed energy technology from concept to scalable reality.
Scientific investigation and prototype validation on flexible polymeric substrates — exploring new materials, device architectures, and printing processes.
Industrial-scale process development replicating laboratory results with precision across high-volume roll-to-roll printing lines.
Custom application design and market deployment, tailored to each partner's specific product requirements and target sectors.
Printed semiconductors are not a replacement for silicon — they are an expansion of what is possible. PHD Semicon enables power harvesting on surfaces and structures that rigid panels cannot reach.
Our low-temperature roll-to-roll printing eliminates the high-emission industrialization characteristic of silicon manufacturing.
Printed on flexible substrates, our devices conform to surfaces where rigid panels cannot — opening entirely new application categories.
Proprietary ink formulations based on perovskite (PVK) and non-fullerene acceptor chemistries enable continuous material optimization.
Carbon and polymer-based material inputs support a diversified, resilient supply chain — unlike polysilicon-dependent technologies.
Lightweight, rollable format significantly reduces transportation and installation complexity versus conventional panel-based systems.
We integrate artificial intelligence into materials development and data processing workflows, accelerating the path from research to deployment.
Defense & Military · BIPV · VIPV · Agrivoltaics · Specialty & IoT
Lightweight, flexible printed semiconductor films purpose-built for defense and military applications — enabling autonomous energy harvesting on equipment, vehicles, and structures where conventional power sources are impractical.
Flexible printed films integrated into building facades, roofing membranes, and architectural surfaces — generating energy where rigid panels cannot be installed.
Ultra-lightweight printed semiconductor films conforming to vehicle surfaces — enabling continuous energy harvesting in motion without structural compromise.
Lightweight, semi-transparent printed films designed for agricultural environments — combining energy generation with crop protection in dual-use installations.
Custom-designed printed energy solutions for small-format IoT devices and specialty applications — enabling autonomous, lightweight power in connected ecosystems.
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