Slot-die Coating News, Applications, and Technical Insights

A new transferring and bonding method enables roll-to-roll printed touch sensors to achieve unprecedented miniaturization and sensitivity, solving long-standing challenges in scalable flexible electronics.

A new study shows how viscosity affects slot-die coating of nanocellulose barrier layers, revealing why higher viscosities shrink the coating window and how industry can overcome it.

A new study introduces the WING process, a scalable roll-to-roll method that enables high-throughput printing of durable, omniphobic, and multifunctional reentrant surfaces for industrial applications.

A new study reveals how electrohydrodynamic modules can significantly improve coating uniformity and production speed in roll-to-roll slot-die coating systems.

A new semi-cured slot-die coating method eliminates air bubbles in LED multilayer films, improving quality, reducing defects, and enhancing optical performance.

Discover how cutting-edge manufacturing equipment is driving cost efficiency, sustainability, and innovation in lithium-ion battery gigafactories, based on a recent review by researchers from Concordia University.

Researchers investigate how slot-die coating and catalyst ink formulation can improve manufacturing of PEM fuel cell electrodes. Results show better coating quality and MEA performance with optimized parameters.

A new study explores how the flow properties of battery electrode slurries affect manufacturing outcomes and performance, offering insights for process optimization.

This breakthrough in perovskite solar cell technology improves efficiency through a dual-layer hole transport strategy, enabling scalable roll-to-roll manufacturing.

Discover how a new study predicts coated layer thickness in roll-to-roll processes using meniscus shape analysis and machine learning.

Researchers present a detailed review of 115 studies on slot-die-based perovskite solar cells, highlighting how this scalable coating technique holds the key to commercializing next-gen solar technology.

At infinityPV, we are thrilled to announce our new collaboration with Tantec, a leader in innovative surface treatment technologies.

Researchers have developed and validated a model that predicts lithium battery electrode coating thickness with high accuracy, helping manufacturers reduce waste and optimize performance.

New research has introduced a groundbreaking approach to slot-die coating, allowing for real-time, continuous adjustment of key parameters like gap distance and angle of attack.

In the pursuit of commercializing perovskite solar cells, the industry is turning to scalable, cost-effective manufacturing techniques such as slot-die coating.

Slot-die coating technology is transforming the field of sustainable packaging by enabling the precise application of bio-based coatings on paper.

Discover how advanced deposition techniques like slot-die coating are transforming flexible electronics by enabling precise nanoparticle arrays.

This study investigates the innovative use of slot-die coating for depositing niobium pentoxide (Nb₂O₅) as an electron transport layer (ETL) in perovskite solar cells, a technique not previously explored in existing literature.