Printed electronics
View article: Precision in Display Manufacturing: Global OLED Inkjet Printing Market Analysis
Precision in Display Manufacturing: Global OLED Inkjet Printing Market Analysis Open
The global OLED Inkjet Printing Market was valued at USD 3.59 billion in 2023 and is projected to reach USD 5.96 billion by 2030, growing at a CAGR of 7.5% from 2024 to 2030. This market encompasses the development and deployment of specia…
View article: From Waste to Wires: PBAT/Lignin Biocomposites Functionalized by a CO2 Laser for Transient Electronics
From Waste to Wires: PBAT/Lignin Biocomposites Functionalized by a CO2 Laser for Transient Electronics Open
Polybutylene adipate terephthalate (PBAT), a flexible biodegradable polyester, has gained widespread use in packaging applications due to its ability to degrade under controlled conditions, producing non-toxic substances. While this proper…
View article: Transparent plant-wearable sensors with tunable mechanical and sensing properties fabricated via facile transfer printing
Transparent plant-wearable sensors with tunable mechanical and sensing properties fabricated via facile transfer printing Open
Climate change and population growth increase the need for sustainable agriculture, particularly in crop monitoring. Conventional methods such as morphological analysis and remote sensing lack the resolution and continuity for accurate, or…
View article: NiCo2O4 Electrodes Prepared by Inkjet Printing on Kapton Substrates for Flexible Supercapacitor Applications
NiCo2O4 Electrodes Prepared by Inkjet Printing on Kapton Substrates for Flexible Supercapacitor Applications Open
This study explores the fabrication and electrochemical performance of flexible NiCo2O4-based pseudo-capacitor electrodes, inkjet-printed onto flexible Kapton substrates. To circumvent the insulating nature of Kapton, a thin Au interlayer …
View article: Eliminating TFT backplanes in microLED displays using ultra precise deposition (UPD) printed interconnects
Eliminating TFT backplanes in microLED displays using ultra precise deposition (UPD) printed interconnects Open
Developing microLED processes compatible with the production of fine pitch displays of TV size is one of the main challenges to exceed their limitation to small screens such as found on microLED based smartwatches. The EU funded project “B…
View article: Eliminating TFT backplanes in microLED displays using ultra precise deposition (UPD) printed interconnects
Eliminating TFT backplanes in microLED displays using ultra precise deposition (UPD) printed interconnects Open
Developing microLED processes compatible with the production of fine pitch displays of TV size is one of the main challenges to exceed their limitation to small screens such as found on microLED based smartwatches. The EU funded project “B…
View article: Sustainable Liquid Metal Composites for Soft Electronics and E‐Waste Reduction
Sustainable Liquid Metal Composites for Soft Electronics and E‐Waste Reduction Open
There has been tremendous progress in soft printable electronics with liquid metal (LM) for creating elastic, stretchable, and thin‐film circuitry. However, such innovation risks outpacing sustainability. As the world moves toward softer, …
View article: Balancing mechanical-thermal-electrical properties in cellulose ionogels via crystallization-induced molecular assembly
Balancing mechanical-thermal-electrical properties in cellulose ionogels via crystallization-induced molecular assembly Open
Cellulose-based ionogels are promising for flexible electronics and energy devices, yet their performance is often constrained by the trade-offs among mechanical robustness, ionic conductivity, and thermal stability. Here, we propose a syn…
View article: Smaller is better: reducing silver nanoparticle size without excess ligands enhances conductivity and flexibility in printed thin films
Smaller is better: reducing silver nanoparticle size without excess ligands enhances conductivity and flexibility in printed thin films Open
Achieving simultaneous high conductivity and mechanical durability in printed flexible electronics remains a central challenge. Here we report a systematic investigation of silver nanoparticle (AgNP) size effects on film performance using …
View article: Microfabricated Organic Electrochemical Transistors Enabled by Printing and Laser Ablation
Microfabricated Organic Electrochemical Transistors Enabled by Printing and Laser Ablation Open
Organic electrochemical transistors (OECTs) are key bioelectronic devices with applications in neuromorphics, sensing, and flexible electronics. OECTs made using biobased and biodegradable materials are emerging as a sustainable alternativ…
View article: Soft, Sustainable, and Sensitive: Biopolymer-Based Hydrogels as Recyclable Temperature Sensors for Skin-Integrated Electronics
Soft, Sustainable, and Sensitive: Biopolymer-Based Hydrogels as Recyclable Temperature Sensors for Skin-Integrated Electronics Open
The development of sustainable, soft, and recyclable materials for skin-integrated electronics is critical for advancing wearable health monitoring while minimizing electronic waste. Here, chitosan-agarose-based hydrogels integrated with p…
View article: Printed Flexible Sensors for Low-Cost Temperature and Humidity Monitoring: Materials, Processes, and Applications
Printed Flexible Sensors for Low-Cost Temperature and Humidity Monitoring: Materials, Processes, and Applications Open
Printed flexible temperature and humidity sensors have emerged as essential components for diverse applications requiring low-cost, scalable, and conformable environmental monitoring. This chapter presents a comprehensive overview of recen…
View article: Aerosol Jet Printing of Synthesized Ag/Ag Nanowires Hybrid Inks for Highly Sensitive, Wide‐Range Conformal Temperature Sensing
Aerosol Jet Printing of Synthesized Ag/Ag Nanowires Hybrid Inks for Highly Sensitive, Wide‐Range Conformal Temperature Sensing Open
Temperature sensors are widely used in daily life and industry. Developing low‐cost, scalable, high‐sensitivity conformal temperature sensors with a broad detection range is highly desirable. In this study, we prepared a hybrid functional …
View article: Comparative analysis of printed electronics technologies in RF and microwave circuits
Comparative analysis of printed electronics technologies in RF and microwave circuits Open
Printed electronics (PE) present a promising alternative to conventional photolithography by enabling rapid prototyping with reduced costs, material waste, and enhanced design flexibility and advantages, particularly relevant for high-freq…
View article: Reducing waste and increasing yield in roll-to-roll printing: a case study with global scalability
Reducing waste and increasing yield in roll-to-roll printing: a case study with global scalability Open
Roll-to-roll (R2R) printing suffers substantial substrate material losses during splicing, start-ups, and register stabilization, directly reducing yield and profitability. This study applied a Statistical Process Control (SPC) framework i…
View article: Life‐Cycle Assessment of Printed Electronic Components ‐ Case Study for Organic Electrochemical Transistors
Life‐Cycle Assessment of Printed Electronic Components ‐ Case Study for Organic Electrochemical Transistors Open
To ensure sustainable progress, future electronics must prioritize both performance and environmental impact, explaining the interest in flexible and printed electronics. However, the sustainability claims often connected to the field of f…
View article: All 2D Material Printed Diodes and Circuits on Paper for Sustainable Electronics
All 2D Material Printed Diodes and Circuits on Paper for Sustainable Electronics Open
Sustainable electronics aim to reduce environmental impact by using ecofriendly materials, energy-efficient manufacturing, and recyclable components. However, existing approaches rely on complex, resource-intensive methods, rare metals, or…
View article: Transparent and printed RF electronics: a comprehensive review of materials, and applications
Transparent and printed RF electronics: a comprehensive review of materials, and applications Open
View article: Direct-Write Printing for Flexible and 3D Electronics: Aerosol Jet vs. Micro Dispensing
Direct-Write Printing for Flexible and 3D Electronics: Aerosol Jet vs. Micro Dispensing Open
This study provides a comprehensive comparison of two leading direct-write manufacturing technologies: Aerosol Jet Printing (AJP) and Micro Dispensing Technology (MDT). The investigation examines their capabilities, limitations, and perfor…
View article: Inkjet-printed strain sensors for monitoring cylindrical pressure vessels
Inkjet-printed strain sensors for monitoring cylindrical pressure vessels Open
The demand for flexible, low-cost, and lightweight sensors is increasing, particularly for structural health monitoring in harsh environments exposed to temperature fluctuations and mechanical strain. Inkjet printing, an additive manufactu…
View article: Encapsulation of Screen-Printed Electrolyte-Based Organic Electronic Components for Long-Term Operation in Varying Environmental Conditions
Encapsulation of Screen-Printed Electrolyte-Based Organic Electronic Components for Long-Term Operation in Varying Environmental Conditions Open
With the advancement of printing techniques, material choices, and ink development, high-performance printed electrochemical components relying on organic conducting polymers are beginning to mature and find traction in numerous applicatio…
View article: Fabrication of flexible electronics by screen printing with PEDOT: PSS/graphene composite ink
Fabrication of flexible electronics by screen printing with PEDOT: PSS/graphene composite ink Open
View article: Quality Control of Printed Electronics usingTerahertz Cross-Correlation Spectroscopy
Quality Control of Printed Electronics usingTerahertz Cross-Correlation Spectroscopy Open
This study explores the application of Terahertz Cross-Correlation
Spectroscopy (THz-CCS) for non-contact and non-destructive quality control
in the production of printed electronics. A total of 27 inkjet-printed samples
were p…
View article: An Examination of Aerosol Jet‐Printed Surface Roughness and its Impact on the Performance of High‐Frequency Electronics
An Examination of Aerosol Jet‐Printed Surface Roughness and its Impact on the Performance of High‐Frequency Electronics Open
View article: Biopolymer-based carbon conductive inks for printed electronics: a comprehensive review
Biopolymer-based carbon conductive inks for printed electronics: a comprehensive review Open
The soaring use of electronic products driven by technological advancements is one of the major environmental concerns due to the growing accumulation of E-waste. Printed electronics (PE), known for their lower environmental impact, serve …
View article: Direct‐Write Printed Contacts to Layered and 2D Materials
Direct‐Write Printed Contacts to Layered and 2D Materials Open
Advancements in fabrication methods have shaped new computing device technologies. Among these methods, depositing electrical contacts to the channel material is fundamental to device characterization. Novel layered and 2D materials are pr…
View article: Printed Electronics in RF and Microwave Circuits: A Performance Comparison Analysis
Printed Electronics in RF and Microwave Circuits: A Performance Comparison Analysis Open
Printed electronics (PE) present a promising alternative to conventional photolithography by enabling rapid prototyping with reduced costs, material waste, and enhanced design flexibility and advantages, particularly relevant for high-freq…
View article: Cottonseed‐Derived Reusable Bio‐Carbon Gel Ink for DIW Printing Soft Electronic Textiles
Cottonseed‐Derived Reusable Bio‐Carbon Gel Ink for DIW Printing Soft Electronic Textiles Open
Soft electronics textiles have garnered global attention for their wearability and promising applications in healthcare, energy devices, and artificial intelligence. Recently, direct‐ink‐writing (DIW) technology has shown a growing trend b…
View article: Advancing sustainable RF energy harvesting for wearable electronics with 2.45 GHz textile-printed rectennas
Advancing sustainable RF energy harvesting for wearable electronics with 2.45 GHz textile-printed rectennas Open
View article: Screen Printing Conductive Inks on Textiles: Impact of Plasma Treatment
Screen Printing Conductive Inks on Textiles: Impact of Plasma Treatment Open
Textile-based wearable devices are rapidly gaining traction in the Internet of Things paradigm and offer distinct advantages for data collection and analysis across a wide variety of applications. Seamlessly integrating electronics in text…