An electronic rainbow – perovskite spectrometer by inkjet printing

04-Jan-2022 - Germany

Researchers from Innovation Lab HySPRINT at Helmholtz-Zentrum Berlin (HZB) and Humboldt Universität zu Berlin (HU) have used an advanced inkjet printing technique to produce a large range of photodetector devices based on a hybrid perovskite semiconductor. By mixing of only three inks, the researchers were able to precisely tune the semiconductor properties during the printing process. Inkjet printing is already an established fabrication method in industry, allowing fast and cheap solution processing. Extending the inkjet capabilities from large area coating towards combinatorial material synthesis opens the door for new possibilities for the fabrication of different kind of electronic components in a single printing step.

Metal halide perovskites are fascinating to researchers in academia and industry with the large range of possible applications. The fabrication of electronic components with this material is particularly appealing, because it is possible from solution, i.e. from an ink. Commercially available salts are dissolved in a solvent and then deposited on a substrate. The group around Prof. Emil List-Kratochvil, head of a joint research group at HZB and HU, focusses on building these types of devices using advanced fabrication methods such as inkjet printing. The printer spreads the ink on a substrate and, after drying, a thin semiconductor film forms. Combining multiple steps with different materials allows to produce solar cells, LEDs or photodetectors in mere minutes.

Inkjet printing is already an established technique in industry, not only for newspapers and magazines, but also for functional materials. Metal halide perovskites are specifically interesting for inkjet printing, as their properties can be tuned by their chemical make-up. Researcher at HZB have already used inkjet printing to fabricate solar cells and LEDs made from perovskites. The inkjet capabilities were further expanded in 2020, when the group of Dr. Eva Unger first used a combinatorial approach to inkjet printing, to print different perovskite compositions in search of a better solar cell material.

Combinatorial printing approach towards industrial production of electronic devices

Now, in this current work, the team around Prof. Emil List-Kratochvil found an exciting application for a large perovskite series within wavelength-selective photodetector devices. “Combinatorial inkjet printing cannot only be used to screen different compositions of materials for solar cell materials,” he explains, “but also enables us to fabricate multiple, separate devices in a single printing step.” Looking towards an industrial process, this would enable large scale production of multiple electronic devices. Combined with printed electronic circuits, the photodetectors would form a simple spectrometer: paper thin, printed on any surface, potentially flexible, without the need of a prism or grid to separate the incoming wavelengths.

Original publication

Other news from the department science

These products might interest you

INVENIO

INVENIO by Bruker

FT-IR spectrometer of the future: INVENIO

Freely upgradeable and configurable FT-IR spectrometer

FTIR spectrometers
contrAA 800

contrAA 800 by Analytik Jena

contrAA 800 Series – Atomic Absorption. Redefined

The best of classical atomic absorption and ICP-OES spectrometry are combined in the contrAA 800

ICP-OES spectrometer
SPECORD PLUS

SPECORD PLUS by Analytik Jena

SPECORD PLUS Series - Maximum precision in UV/Vis

The modern classic guarantees the highest quality

PlasmaQuant 9100

PlasmaQuant 9100 by Analytik Jena

PlasmaQuant 9100 Series of ICP-OES Instruments

Reveal the Details That Matter

ICP-OES spectrometer
ZEEnit

ZEEnit by Analytik Jena

Zeeman Technology for Maximum Sensitivity – Matching any Analytical Problem

Transverse-heated graphite furnace for optimum atomization conditions and high sample throughput

AAS spectrometers
Microspectrometer

Microspectrometer by Hamamatsu Photonics

Ultra-compact microspectrometer for versatile applications

Precise Raman, UV/VIS and NIR measurements in portable devices

microspectrometers
novAA®  800

novAA® 800 by Analytik Jena

The Analyzer 4 You - novAA 800-Series

The reliable all-rounder, making routine analysis efficient and cost-effective

PlasmaQuant MS Elite

PlasmaQuant MS Elite by Analytik Jena

LC-ICP-MS Is the Key to the World of Elemental Species

Highest Sensitivity and Lowest Detection Limits with PlasmaQuant MS Series and PQ LC

fluidlab R-300 | Cell Counter & Spectrometer

fluidlab R-300 | Cell Counter & Spectrometer by anvajo

fluidlab R-300 | Cell Counter & Spectrometer

The first portable device that combines Cell Counting and Spectrometry

cell analyzers
Quantaurus-QY

Quantaurus-QY by Hamamatsu Photonics

High-speed UV/NIR photoluminescence spectrometer

Precise quantum yield measurements in milliseconds without reference standards

fluorescence spectrometers
FastTrack™

FastTrack™ by Mettler-Toledo

FastTrack UV/VIS Spectroscopy - Speed Up Your Measurements

Fast, reliable & efficient measurements with traceable accuracy in a small footprint

UV/VIS spectrophotometers
Loading...

Most read news

More news from our other portals