Synthesis and study of transition metal(Co, Cu, and Ni) substituted ferrites for humidity sensor applications V. Jagadeesha Angadi 1, * , Khalid Mujasam Batoo 2 , Sajjad Hussain 3 , S. O. Manjunatha 4 , Shifa Wang 5 , and S. P. Kubrin 6 1 Department of Physics, P.C. Jabin Science College, Hubballi 580031, India 2 College of Science, King Saud University, P.O. Box-2455, Riyadh 11451, Saudi Arabia 3 Graphene Research Institute and Institute of Nano and Advanced Materials Engineering, Sejong University, Seoul 143-747, Republic of Korea 4 Department of Physics, B.M.S College of Engineering, Bengaluru 560019, India 5 School of Electronic and Information Engineering, Chongqing Three Gorges University, Chongqing 404000, China 6 Research Institute of Physics, Southern Federal University, Rostov-On-Don 344090, Russia Received: 10 September 2022 Accepted: 29 November 2022 Ó The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature 2023 ABSTRACT Ferrites are a very common commodity in the modern world due to their very strong magnetic permeability, high resistivity, modest permittivity, high satu- ration magnetization, low power losses, low coercivity, low remanence mag- netization, and low power losses. These properties are mainly depending on chemical composition, synthesis method, and other parameter. Further based on these parameter material exhibits noticeable properties. Aiming on these points we have prepared 100% replacement at A site AB 2 O 4 materials with several dopant i.e. Co 2? , Ni 2? , Cu 2? . All the samples were prepared by solution com- bustion method using glucose as fuel. This method is the only one method very less expensive compare to other synthesis methods. The MFe 2 O 4 (M=Co 2? , Ni 2? , Cu 2? ) samples were characterised by XRD and VSM to confirm phase, structure, crystallinity, and magnetic behaviour of the samples. XRD data reveals that crystallite size were found decreases with changing transition metal 100% replacement at A site. Magnetic behaviour was studied by using VSM and results reveals that samples were turns ferrimagnetic to ferromagnetic nature with changing substitution. As a result of sensing study, these samples could be used to develop sensing materials in the future. According to the hysteresis analysis, the desorption mechanism is less than the adsorption process. At room temperature, the humidity sensing material is extremely stable at higher con- centrations of Co ferrites. The low sensing response ferrites, on the other hand, have a lot of potential for sensor applications, hence our results help for per- manent magnet applications. Since samples exhibits highly porosity so that these samples very good candidates for humidity sensor applications. Address correspondence to E-mail: jagadeeshbub@gmail.com https://doi.org/10.1007/s10854-022-09694-5 J Mater Sci: Mater Electron (2023)34:301