Perovskite Photovoltaics and LEDs
A collection of substrates, materials and processing equipment for the fabrication and measurement of perovskite solar cells and LEDs. Everything you need to get going quickly. For information and support please see our perovskite introduction, or our perovskite processing guide and video or please contact us.
Photovoltaic Substrate (8-pixel) System
ITO glass substrates and associated deposition masks for fabricating lab-scale photovoltaic devices including OPV, perovskite, CZTS and more using Ossila's latest 8-pixel design. Can also be used for OLEDs. Standard size (20 x 15 mm).
Perovskite precursor inks to kick-start your perovskite photovoltaic research Related categories: perovskite precursor materials, perovskite interface materials, DSSC dyes and electrolytes
Perovskite Precursor Ink (for Air Processing)
I101 perovskite Ink has been specially formulated in the Ossila laboratories to be deposited by spin coating. Our I101 perovskite ink is designed for air processing in low-humidity environments. Using a mixture of methyl ammonium iodide (MAI) and lead chloride (PbCl) dissolved in dimethyl formamide our I101 perovskite ink will convert to a methylammonium lead halide perovskite under heat.
Perovskite Precursor Ink (for Nitrogen Processing)
A formulation of methylammounium iodide (MAI), PbCl2 and PbI2 at a molar ratio of 1:1:4 (PbCl2:PbI2:MAI) in a DMF solvent. On processing, I201 ink can be used to create a CH3NH3PbI3-xClx perovskite film. The process recipe for I201 is optimised for glovebox processing under a nitrogen atmosphere.
High-Performance Perovskite Precursor Ink (for Nitrogen Processing)
Ossila's new high performance triple cation ink is capable of achieving over 19% power conversion efficiency. For more information or pre-orders please contact firstname.lastname@example.org I301 perovskite ink has been formulated in conjunction with our research partners to obtain the highest possible PCEs. Our I301 perovskite ink is designed for processing inside controlled environments such as a nitrogen-filled glovebox. Ossila’s...
Perovskite Quantum Dots
High purity, high PLQY Perovskite Quantum Dots Caesium lead perovskite quantum dots of chloride/bromide, bromide, and iodide now available Perovskite quantum dots are semiconducting nanocrystals. Compared to metal chalcogenide quantum dots,...
Precursor materials for forming perovskite thin films for photovoltaic and OLED purposes.
Methylammonium Iodide (MAI)From £99.00
Methylammonium Bromide (MABr)From £103.00
Formamidinium Iodide (FAI)From £99.00
Formamidinium Bromide (FABr)From £120.00
Lead ChlorideFrom £149.00
iso-Butylammonium BromideFrom £73.80
iso-Butylammonium iodideFrom £111.00
n-Butylammonium BromideFrom £118.00
n-Butylammonium IodideFrom £128.00
t-Butylammonium IodideFrom £125.50
t-Butylammonium BromideFrom £119.00
n-Propylammonium IodideFrom £97.50
Acetamidinium IodideFrom £151.00
Benzylammonium IodideFrom £138.00
Ethylammonium IodideFrom £130.00
Ethylammonium BromideFrom £102.00
Dimethylammonium IodideFrom £86.60
Dimethylammonium BromideFrom £102.00
Imidazolium IodideFrom £155.50
Imidazolium BromideFrom £85.80
Perovskite Hole Interface Materials
Hole interface materials for extraction / injection into perovskite photovoltaics and LEDs
PFO (F8)From £125.00
NPB (NPD)From £139.00
PTAA for Perovskite ApplicationsFrom £192.00
CBP - 4,4′-Bis(N-carbazolyl)-1,1′-biphenylFrom £88.00
Perovskite Electron Interface Materials
Interface materials to maximise electron extraction/injection from perovskite photovoltaics and OLEDs.
BCP - BathocuproineFrom £185.00
FK102-Co(II)TFSi SaltFrom £132.00
BPhen - BathophenanthrolineFrom £77.00
FK102-Co(II)PF6 SaltFrom £137.00
FK102-Co(III)PF6 SaltFrom £173.00
Silicon Oxide Substrates and WafersFrom £349.00
FTO Coated Glass (Unpatterned)From £126.00
Sapphire SubstratesFrom £10.00
Ultra-flat Quartz Coated GlassFrom £72.00
ITO Glass Substrates (Unpatterned)From £80.00