Technical data sheet

DOWNLOAD OUR
TECHNICAL DATA SHEETS

delimiter image

Smart Screen F (S-CS21303) Conductive Ink was developed for the printed electronics market and is particularly well suited for applications requiring high conductivity and high resolution at very low curing temperatures. This ink, based on silver, is perfectly adapted to design conductive tracks on flexible substrates and is suitable to produce antennas for IoT applications.

Process: Flatbed screen printing (down to 80 µm of resolution)

For printing lines below 80 µm, use Smart Screen R (S-CS21306)

Smart Screen R (S-CS21306) Conductive Ink was developed for the printed electronics market and is particularly well suited for applications requiring high conductivity and high resolution at very low curing temperatures. This ink, based on silver, is perfectly adapted to design conductive tracks on flexible substrates and is suitable to produce antennas for IoT applications (HF, UHF).

Process: Rotary screen printing (below 80 µm of resolution)

For printing lines above 80 µm, use Smart Screen F (S-CS21303)

Smart Screen M (S-CS91348) Conductive Ink was developed for the printed electronics market and is particularly well suited for In-Molding applications. This ink, based on silver, is perfectly adapted to design conductive tracks on thermoformed, and molded flexible substrates and is suitable for automotive, aeronautics and appliances applications.

Process: Screen Printing

Smart Screen I (S-CS21511) Conductive Ink was developed for the printed electronics market and is particularly well suited for applications requiring high conductivity and high adhesion on ITO film, and untreated PET.

Process: Flatbed screen printing

Smart Screen P (S-CS21331) Conductive Ink was developed for the printed electronics market and is particularly well suited for applications requiring high conductivity and high resolution at very low curing temperatures. This ink, based on silver nano-particles, is perfectly adapted for printing onto PEDOT:PSS layer.

Process: Screen printing

Smart Jet I (S-CS01520) Conductive Ink  is dedicated to the printed electronics market and is particularly well suited for applications requiring high conductivity and high resolution. This ink, based on nano silver, is perfectly well suited to design conductive traces on flexible substrates. It is also recommended for IoT applications including antennas (HF, UHF), sensors, OPV and OLED grids, electrodes and touchscreen bezel busbars.

Processing: Ink Jet, Industrial print heads

Smart Jet L (S-CS01130) Conductive Ink  is dedicated to the printed electronics market and is particularly well suited for applications requiring high conductivity and high resolution. This ink, based on silver, is perfectly suited to design conductive traces on flexible substrates. It is also recommended for IoT applications including antennas (HF, UHF), sensors, OPV and OLED grids, electrodes and touchscreen bezel busbars.

Processing: Ink Jet, Laboratory print heads

Smart Aerosol (S-CS61308) Conductive Ink was developed for the printed electronics market and is particularly well suited for applications requiring high conductivity and high resolution at very low curing temperatures. This ink, based on silver, is perfectly adapted to design conductive tracks on flexible substrates and is suitable to produce antennas for IoT applications (HF, UHF).

Curing conditions are compatible with different curing processes (thermal, photonic, laser) and with various flexible substrates (polyimide, polycarbonate, PET, PEN…) and low sheet resistances are obtained with fast drying.

This ink has been developed to address applications require very low curing temperatures.

Process: Aerosol jet Optomec Printer

Smart Spray (S-CS11101) Conductive Ink was developed for the printed electronics market and is particularly well suited for applications requiring high conductivity.

Processing: Spray coating

Smart Flexo (S-CS31506) Conductive Ink was developed for the printed electronics market and is particularly well suited for applications requiring high conductivity and high resolution. This ink, based on silver, is perfectly adapted to design conductive traces on flexible substrates. Also, it is shaped for IoT application requiring antennas (HF, UHF).

Curing conditions are compatible with different curing processes (thermal, photonic, laser) and with various flexible substrates (polyimide, polycarbonate, PET, PEN…) and low sheet resistances are obtained with fast drying.

Processing: Flexography

Smart Gravure (S-CS51301) conductive ink was developed for the printed electronics market and is particularly well suited for applications requiring high conductivity and high resolution.

This ink has been developed to address applications which require very low curing temperature and use sensitive substrate.

Processing: Heliogravure

Smart Syringe (S-CS71521) Conductive ink has been designed to be dispensed by syringe.

Processing: Syringe coating

ProtectInk S (P-ID21001) was developed for use as isolative protective layer of the Smart Screen F (S-CS21303) and the Smart Screen R (S-CS21306). The ProtectInk S (P-ID21001) protect the silver coating against oxidation and scratch.

Process: Screen printing

TranDuctive®E10 CS41220 is designed for ITO replacement. The ink is based on a mix of silver nanowires and Zinc Oxide NP, enabling electrode and ETL layer printing in a single process step. Targeted application is printed transparent conductive film.

Process: Slot die coating, blade coating, Spray.

TranDuctive®E20 CS41221 is designed for ITO replacement. The ink is based on a mix of silver nanowires and Zinc Oxide NP, enabling electrode and ETL layer printing in a single process step. Targeted application is printed transparent conductive film.

Process: Slot die coating, blade coating, Spray.

TranDuctive®E50 CS41222 is designed for ITO replacement. The ink is based on a mix of silver nanowires and Zinc Oxide NP, enabling electrode and ETL layer printing in a single process step. Targeted application is printed transparent conductive film.

Process: Slot die coating, blade coating, Spray.

TranDuctive®N15 CS41217 is designed for ITO replacement. The ink is based on silver nanowires. Targeted application is printed transparent conductive film.

Process: Slot die coating, blade coating, Spray.

TranDuctive®N30 CS41218 is designed for ITO replacement. The ink is based on silver nanowires. Targeted application is printed transparent conductive film.

Process: Slot die coating, blade coating, Spray.

TranDuctive®N70 CS41219 is designed for ITO replacement. The ink is based on silver nanowires. Targeted application is printed transparent conductive film.

Process: Slot die coating, blade coating, Spray.

Helios ETL D Screen (H-DZ21018) Semi Conductive Ink was developed for the printed electronics market and is particularly well suited for OPV and PV.

Helios ETL D Screen (H-DZ21018) Semi Conductive Ink shows great performance on Screen printing and Blade coating.

The use of Helios ETL D Screen (H-DZ21018) Semi Conductive Ink is greatly improving the devices performances by reducing the roughness of the TCE while improving the electrical conductivity and the transparency. Life time of the devices is also increased.

The use of Helios ETL D Screen (H-DZ21018) provides ETL layer with high performances. In addition, compared to standard ETL, the PCE not retained even with higher thickness.

Process: Screen printing

Helios ETL D Jet  (H-DZ01015) Semi Conductive Ink was developed for the printed electronics market and is particularly well suited for OPV and PV.

Helios’Ink H-DZ01015 Semi Conductive Ink shows great performance on Drop On Demand (DOD) inkjet Printer.

Helios ETL D Jet  (H-DZ01015) Semi Conductive Ink is greatly improving the devices performances by reducing the roughness of the TCE without a negative impact on the electrical conductivity and the transparency. Life time of the devices is also increased.

The use of Helios ETL D Jet  (H-DZ01015) provides ETL layer with high performances. In addition, compared to standard ETL, the PCE not retained even with higher thickness.

Process: Ink Jet

Helios ETL D Slot Die (H-DZ41006) Semi Conductive Ink was developed for the printed electronics market and is particularly well suited for standard and invert OPV device.

Helios ETL D Slot Die (H-DZ41006) Semi Conductive Ink shows great performance on slot die coating and is compatible with various flexible substrates (Kapton, PET, PET/ITO, …) but also Glass/ITO. The use of Helios ETL D Slot Die (H-DZ41006) Semi Conductive Ink is greatly improving the devices performances by reducing the roughness of the TCE without a negative impact on the electrical conductivity and the transparency.

Life time of the devices is also increased. The use of Helios ETL D Slot Die (H-DZ41006) Semi Conductive Ink provides ETL layer with high performances. In addition, compared to standard ETL, the PCE not retained even with higher thickness.

Process: Slot Die

Helios ETL D Slot Die+ (H-DZ41021) Semi Conductive Ink was developed for the printed electronics market and is particularly well suited for standard and invert OPV device.

Helios ETL D Slot Die+ (H-DZ41021) Semi Conductive Ink shows great performance on slot die coating and is compatible with various flexible substrates (Kapton, PET, PET/ITO, …) but also Glass/ITO. The use of Helios ETL D Slot Die+ (H-DZ41021) Semi Conductive Ink is greatly improving the devices performances by reducing the roughness of the TCE without a negative impact on the electrical conductivity and the transparency.

Life time of the devices is also increased. The use of Helios ETL D Slot Die+ (H-DZ41021) Semi Conductive Ink provides ETL layer with high performances. In addition, compared to standard ETL, the PCE not retained even with higher thickness.

Process: Slot Die

Helios ETL D Spray H-DZ11015 Semi Conductive Ink was developed for the printed electronics market and is particularly well suited for OPV and OPV.

Helios ETL D Spray H-DZ11015 Semi Conductive Ink shows great performance on Spray coating and is compatible with various flexible substrates (Kapton, PET, PET/ITO, …) but also Glass/ITO.

The use of Helios ETL D Spray (H-DZ11015) Semi Conductive Ink is greatly improving the devices performances by reducing the roughness of the TCE without a negative impact on the electrical conductivity and the transparency. Life time of the devices is also increased. The use of Helios ETL D Spray (H-DZ11015) Semi Conductive Ink provides ETL layer with high performances. In addition, compared to standard ETL, the PCE not retained even with higher thickness.

Helios ETL Screen H-SZ21024 semi-conductive ink was developed for the printed electronics market and is particularly well suited for OPV and PV.

Helios ETL Screen H-SZ21024 shows great performances on screen printing and blade coating.

Low roughness, homogenous film and excellent compatibility are obtained on either ITO or any active layer for conventional and inverted structure.

Processing: Screen printing, Blade coating

Helios ETL Jet H-SZ01034 semi-conductive ink was developed for the printed electronics market and is particularly well suited for OPV and PV.

Helios ETL Jet H-SZ01034 shows great performances on Drop On Demand (DOD) inkjet printer, Blade coating, Spin coating and is compatible with various flexible substrates (polyimide, PET, PET/ITO, …) but also glass/ITO.

Processing: Ink Jet printing

Helios ETL Slot Die H-SZ41029 is a semi-conductive ink based on ZnO that has been developed for the printed electronics market and is particularly well suited for flexible OLED and OPV.

Helios ETL Slot Die H-SZ41029 shows great performances on slot die coating and is compatible with various flexible substrates (polyimide, PET, PET/ITO, …) but also glass/ITO.

Processing: Slot die coating

Helios ETL Spray H-SZ11034 semi-conductive ink was developed for the printed electronics market and is particularly well suited for OPV and PV.

Helios ETL Spray H-SZ11034 shows great performances on spray coating and is compatible with various flexible substrates (polyimide, PET, PET/ITO, …) but also glass/ITO.

Processing: Spray coating

Helios HTL I Slot Die (H-SW41011) is a semi-conductive ink based on WO3 nanoparticles. This ink has been developed for the printed electronics market, especially to provide HTL solution for the OPV market. Helios HTL I Slot Die (H-SW41011) has high performances in inverted structure. Helios HTL I Slot Die (H-SW41011) shows great performances on slot die coating and blade coating.

Process: Slot Die

Helios HTL S Slot Die (H-SW41014) is a semi-conductive ink based on WO3 nanoparticles. This ink has been developed for the printed electronics market, especially to provide HTL solution for the OPV market.

Helios HTL S Slot Die (H-SW41014) has high performances in standard structure. Helios HTL S Slot Die (H-SW41014) shows great performances on slot die coating and blade coating.

Process: Slot Die/Blade coating