Experimental Materials Scientist | Multiferroics, Dielectrics & Quantum Materials for Next-Generation Technologies

Assistant Professor, Department of Physics, Indian Institute of Information Technology (IIIT) Bhopal, India

40+ international peer-reviewed publications | Research experience across India, Europe, and the USA

Exploring structure–property relationships in complex materials for next-generation electronic and quantum technologies.

Dr. Deep Chandra Joshi

Experimental Materials Scientist | Condensed Matter Physics

I am an experimental condensed matter physicist specializing in the synthesis, characterization, and functional understanding of magnetic, dielectric, and quantum materials. My research focuses on uncovering fundamental mechanisms in multiferroics, Mott insulators, high-k dielectrics, and composite systems, with potential applications in spintronics, terahertz technologies, and energy-efficient electronics.

I am currently an Assistant Professor in the Department of Physics at IIIT Bhopal, India. Prior to this, I held postdoctoral research positions at Uppsala University (Sweden), Charles University (Czech Republic), and Morgan State University (USA), working on advanced experimental techniques in solid-state physics.

My work has resulted in 50+ publications in leading international journals, including Physical Review Letters, Physical Review B, Applied Physics Letters, and ACS Applied Materials & Interfaces. I actively seek motivated PhD and MSc students, as well as international research collaborations and funded projects in experimental materials physics.

Multiferroics • Dielectrics • Quantum & Functional Materials • Spintronics

Research Impact

  • 40+ Peer-Reviewed International Publications

  • International Research Experience: India | Sweden | Czech Republic | USA

  • Active International Collaborations

  • Research Indexed in Web of Science, Scopus & Google Scholar

Research focus aligned with emerging areas in spintronics, quantum materials, and multifunctional electronic systems.

📌 Prospective PhD/MSc students and collaborators:
Please explore my Research and Publications pages, or feel free to contact me directly regarding research opportunities and joint projects.

Qualifications and Experiences

My journey into the world of multiferroics and next-generation technologies.

Title : Dielectric And Magnetic Studies Of Wide-bandgap Mott Insulators And Their Composites
P.hD awarded in 2018 from Indian Institute of Technology Guwahati (IIT G)
Postdoctoral at Angstrom laboratory, Uppsala University, Sweden.

Postdoctoral at Charles University, Prague, Czech Republic.

Postdoctoral at Morgan State University, Maryland, USA.

Research Activities

Join me on a journey through the innovative world of experimental materials science, where we explore multiferroics, spinels, and more to unlock next-generation technologies.

50+

International Research Articles

Advanced Materials Expertise

Exploring innovative materials like multiferroics and perovskites for next-generation technology solutions.

A close-up view of electronic components on a circuit board, including capacitors, inductors, and semiconductor chips. The components are densely packed, with visible QR codes on some of the parts. The circuit board is part of a larger electronic device with a metallic enclosure.
A close-up view of electronic components on a circuit board, including capacitors, inductors, and semiconductor chips. The components are densely packed, with visible QR codes on some of the parts. The circuit board is part of a larger electronic device with a metallic enclosure.
The image features an electronic circuit board placed on a metallic surface with perforated holes. Blue terminal connectors and cylindrical capacitors are visible on the green board. Nearby, an orange fiber optic cable is coiled beside a metal component encased in a transparent cover. The setting appears to be a technical or engineering workspace.
The image features an electronic circuit board placed on a metallic surface with perforated holes. Blue terminal connectors and cylindrical capacitors are visible on the green board. Nearby, an orange fiber optic cable is coiled beside a metal component encased in a transparent cover. The setting appears to be a technical or engineering workspace.
Research and Development

Innovating through experimental techniques to understand magnetic and electric properties of advanced materials.

Material Characterization

Analyzing the properties of high-k dielectrics and their applications in advanced technological developments.

Research Areas

Exploring advanced materials for next-generation technology applications.

Magnetic Properties

Investigating multiferroics and their unique interactions.

HIgh-k Dielectrics

Developing high-k dielectrics and Mott insulators.

Quasicrystals

Examining magnetic quasicrystals and their approximants.

THz Spectroscopy

Quench Switching in Colinear Antiferromagnets

Contacts:

Exploring advanced materials for next-generation technologies.

deepchandra.joshi@iiitbhopal.ac.in

djoshi835@gmail.com

Address:

Room no. TB 206, New Teaching Block

IIIT Bhopal, Madhya Pradesh, India

Pin: 462003