The role of polyaniline and plasticizer on the development
The role of polyaniline and plasticizer on the development of the electrical ... Abstract This work is aimed to use polyaniline (PAni) as the conductive filler with a different weight percentage
The role of polyaniline and plasticizer on the development
This work is aimed to use polyaniline (PAni) as the conductive filler with a different weight percentage for the development of the electrical conductivity in poly (3-hydroxybutyrate) (PHB) to apply in the green electronic devices and biomedical application.
The role of polyaniline and plasticizer on the development
The role of polyaniline and plasticizer on the development of the electrical conductivity of PHB composites March 2025 Authors: Ahmed Abdelbary Higher Institute of Engineering and...
Development of polyaniline for sensor applications: A review
This review is focusing on the uses of polyaniline as conductive sensors over the past decade and especially for biosensors to be within easy reach. The effort of conducting polymers has been on modern reviewing literature that addressing use as a sensor. In addition, the gradual development in the literature on the evolution of polyaniline as
DEVELOPMENT IN POLYANILINE CONDUCTING POLYMERS - Taylor & Francis
Research and development work has been reviewed with special interest in chemical, electrochemical, doping processes, and polyaniline-based composite processes. Process development with high accuracy of product results will have a direct relationship with structure and properties.
- Can polyaniline based nanocomposites be used in advanced materials?
- This review explores the synthesis, characterization, and diverse applications of polyaniline (PANI)-based nanocomposites. PANI, known for its tunable electrical conductivity, eco-stability, and cost-effectiveness, has gained significant attention in advanced materials.
- Why is polyaniline a popular electrically conducting polymer?
- Polyaniline (PANI) has been extensively used due to its modifiable doping–dedoping characteristics , . It has become the most widely studied electrically conducting polymer because of its simple synthesis process, cost-effectiveness, and superior ecological stability. Fig. 1.
- Can polyaniline be used in tissue engineering?
- Combining PANI with other polymers, such as chitosan, cellulose, and alginate, enhances its properties and makes it more compatible with living tissues . Tiwari et al. prepared a nanocomposite of poly (N-isopropyl acrylamide), carbon nanotubes, and polyaniline for tissue engineering applications.
- Why is polyaniline important?
- Among these, Polyaniline (PANI), identified initially as “aniline black” in the 19th century, has become a central focus due to its tunable conductivity, cost-effectiveness, and ecological stability, attracting wide scientific attention since the 1980 s , , , , , , , .
- What is oxidative polymerization of polyaniline polymeraldine salt?
- Scheme 1. Chemical oxidative polymerization . Pure PANI is obtained by rinsing the solution with de-ionized water and adding acetone to remove non-reactive substances, resulting in a green product recognized as Polyaniline polymeraldine salt.
- Are polyaniline/CNT nanocomposites effective in acidic solutions?
- The Polyaniline/CNT nanocomposites exhibited enhanced capacitive properties in acidic solutions, with a specific capacitive efficiency of 1744F g -1 at an electric current density of 2 A g -1. The electrodes displayed reliability after 1000 cycles, experiencing a capacitance loss of less than 21 % .
