Advanced Energy Materials

for the New Generation of Optoelectronics

Precursor Chemicals for Perovskite Electronics

Perolink.

Ultra-Pure Perovskite Precursors.

European Precision, Global Performance.

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Highest Quality and Sustainable Materials Tailored for Performance & Endurance

Superior Purity

High-purity materials (99.99%–99.999%) engineered to strengthen perovskite quality, consistency, and performance
Consistent & Scalable

Controlled reactions that maintain consistent batch quality and facilitate scalable manufacturing
Sustainable & Safe

Non-flammable, environmentally friendly solvents that enable processes with up to 87% reduction in LCA impact

Portfolio of Energy Materials

Formamidinium Iodide

Tin(IV) Oxide, 15% in Water

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Lead (II) Iodide

Perovskite Technology - Materials for Progress

Perovskite-Based Photovoltaics

Perovskites are a diverse class of materials characterized by a crystal structure similar to calcium titanium oxide. Certain perovskite compounds exhibit exceptional optoelectronic properties, making them highly efficient semiconductors for light harvesting in solar cells. Through extensive research and advanced material engineering, perovskites can now be formulated into printable inks, enabling “printed power,” a once-futuristic concept that is rapidly becoming reality.

Ultra-light solar cell modules

Ultrathin photovoltaic films, only about 500 nm thick, enable lightweight and flexible solar modules. Their minimal weight makes them ideal for integration into BIPV (building-integrated photovoltaic) products such as insulation panels, façades, and sunblinds. They can be applied to many surfaces without adding significant load, turning passive materials into energy-generating ones.
Thanks to their flexibility and low power output, these films are also well suited for powering IoT devices, from sensors to smart building components, where compact, maintenance-free energy sources are essential.

Flexible solar cells with new functionalities

Perovskite-based photovoltaics not only allow the printing of solar cells on flexible substrates, but also enable a range of advanced performance features. These materials can reach higher efficiencies than many conventional thin-film technologies, offer adjustable levels of partial transparency, and operate reliably even under low-light or indoor illumination.
Together, these properties make perovskites highly versatile for applications where traditional solar cells reach their limits, from lightweight energy-harvesting surfaces to aesthetically adaptable solutions for modern product and building design.

About Perolink

Perolink develops high-performance materials through innovative and sustainable chemistry. Our focus is on emerging technologies such as printed electronics, energy harvesting, and perovskite photovoltaics.

With deep expertise in perovskite materials and chemical nanotechnology, we support the full development chain—from functional ink formulation to processing and recycling. Through advanced material engineering, we help turn the vision of printed, next-generation energy solutions into reality.