Materials
We supply a wide range of materials for organic electronics. Our catalogue includes both well-established materials and exciting new materials which researchers are using to push the boundaries in scientific development. Materials from Ossila are featured in a number of high-impact publications, used to create high performing devices, and are trusted by institutions around the world.
Low Prices
Quality materials at low prices with free shipping on qualifying orders and automatic discounts on large orders
High Purities
Our high purity materials enable the best possible device performance, reliability, and stability
Sensible Quantities
From small orders to large batches, our materials are available in appropriate quantities for most applications
Quick Dispatch
We keep stock in our state-of-the-art lab to allow us to quickly dispatch orders to anywhere in the world*
Large Range
Find the most popular and newest materials for device fabrication in our extensive and growing catalogue
Trusted Worldwide
Trusted by institutions around the world, enjoy first class customer service and support as part of the Ossila guarantee
Popular Materials
High Purity Materials
A quantum dot is a single crystal of semiconducting material, measuring only a few nanometers in diameter.
Carbon nanotubes (CNTs) are a part of the unique class of materials known as nanomaterials. Typically, CNTs are only one atom thick in one or more spatial dimensions.
As the demand for clean and renewable energy sources continues to rise, there is a growing need to invest in electrical storage systems.
Optoelectronic materials have the unique ability to interact with and manipulate photons and electrical energy, resulting from their structures which are often conjugated.
Fullerene acceptors, also known as fullerene-based acceptors or acceptor molecules, are a type of electron acceptor material commonly used in conjunction with organic donor materials.
Semiconducting polymers for bulk heterojunction, OPV, OLED, OFET and perovskite interfaces and solar cell research.
Perovskite materials are defined by their unique ABX3 crystal structure, where "A" and "B" are cations and "X" is an anion.
Dye-sensitized solar cells (DSSCs) are thin film solar cells designed around organic dyes in electrochemical cells.