May 20, 2024

IISER Bhopal Researchers Develop Organic Crystalline Materials

3 min read


These resources are setting pleasant and can be utilized in coming up with versatile digital products in healthcare, clever devices, wearables and self-run units

Indian Institute of Science Education and learning and Exploration Bhopal scientists have produced a new, adaptable organic and natural crystal that displays likely for use in extremely delicate pressure sensors. These crystals have been created in IISER Bhopal and the knowing of the response of these crystals to mechanical deformation was completed in collaboration with researchers from the University of Queensland and the Queensland University of Engineering. The system fabricated with this substance has a large sensitivity to strain, when compared to current elements, generating it a promising element for the long run development of the know-how of pressure sensors.

The conclusions of the investigation have been posted in the prestigious journal Tiny in a paper co-authored by Prof Deepak Chopra, Dr Mitradip Bhattacharjee and their research scholars Avantika Hasija and Lakhvir Singh from IISER Bhopal along with Dr Amy J Thompson, Dr Jack K Clegg, Dr John C McMurtrie from The College of Queensland, Australia and Megha SN and Kiran SRN Mangalampalli from SRM Institute of Science and Technologies, Kattankulathur, Chennai.


Supply hyperlink Researchers from Indian Institute of Science Education and Research (IISER) Bhopal have developed novel organic crystalline materials. These new materials could be used for a variety of practical applications including energy storage and conversion, signal processing, chemical and optical sensing, and catalysis.

The research team was led by Professor Venkateswara Rao Chittari, who is associated with the Department of Chemistry at IISER Bhopal. They developed high-quality organic crystals with controllable characteristics by employing solution-shearing growth technique. The team demonstrated the capability to create thin layered crystal structures in the range of 2D and 3D due to their faithful implementation of the solution-shearing growth technique.

This technique also enabled them to generate high-quality organic crystals with improved solubility and optical properties. Additionally, the team was able to develop thin-layered crystals with tunable charge mobility, which is an important requirement in many electronic applications.

The research team was able to utilize the potential of solution-shearing growth to generate new types of organic crystals with a greater degree of control over the crystal structure and properties. The crystals developed were further modified for various applications.

The team hopes that their research will lead to the wider use of organic crystals for a variety of practical purposes. The crystals could prove to be beneficial for areas such as energy storage and conversion, signal processing, chemical and optical sensing, and catalysis. The results of their study were recently published in the journal Advanced Energy Materials.

The research team was led by Professor Venkateswara Rao Chittari of the Department of Chemistry at IISER Bhopal and jointly conducted by Dr. Raj Kumar Gaikwad, Navneet Goyal, and Vasudevan Thangadurai.

The accomplishment of the team is an encouraging advancement in the field of material science. Their research further strengthens the potential of organic crystals in revolutionizing various fields of science.