Organic Conductive Materials
Organic Semiconductive Polymer: Verazol® HT Series (P3HT)
Feature 3: Excellent Processability
HT-030 of ultra-high molecular weight grade was developed based on our unique production techniques. The inherent processability of polymeric materials is dramatically improved to allow self-standing films and nanofiber structures to be fabricated on their own, with expected applications in the new area of "sheet devices."
Self-standing film
This film exhibits high self-standing performance in thicknesses of nanometers or submicrometers. This feature can be used to add functions that were previously unavailable for applications such as lamination by transfer and solar cells without base materials.
Nanofiber
Photo: By Mutsumi Kimura of Shinshu UniversityNanofiber is used to drive pressure sensors. These sensors, attached to beds, floors and walls, can build a sensor network to provide monitoring care for children and the elderly.
Creating nanoheterostructures
Expected applications include solar cells and radiation detectors.Photo: By Tada of Toyama National College of Technology
Reference: Presentation No. 29p-B1-17
Application of Nanoimprint Technology for Sensitivity Improvement of Organic Radiation Detector
It has become possible to control interface forms with a nanoimprint mold, which is expected to improve the phototransformation efficiency of organic photovoltaics.
Organic semiconductive ink
Looking to the future growth of the "Printed Electronics" field, we are also focusing on formulation of organic semiconductive ink for test matching with various printing methods.
Optical Properties
Photovoltaic Performance Assessment
Excellent Processability
Development of High-Performance Semiconductive Materials
Proposals for Joint Research and Synthesis Services
Organic Conductive Polymer: Verazol
Standard Grade: WED-S
High Conductivity Grade: WED-SM
Development Grade
Organic Dye Sensitizer MK-2 for Dye-Sensitized Solar Cells (DSSC)
Inquiries about organic conductive materials
