1. Faculty Publications
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Item The Process Of Detecting The Dengue Virus Using An Ultrasensitive High-Surface Porous Carbon-Based Electrochemical Biosensor(Indian Patent Office, Chennai, 2024-06-14) Bhat, Badekai Ramachandra; Hegde, Shreeganesh Subraya; National Institute of Technology Karnataka, SurathkalItem System and Method for Additive Manufacturing of Metallic Composites by Friction(Indian Patent Office, Chennai, 2024-03-06) Ansari, Rasheeda Maqbool; R, Dileep; Bhat, Badekai Ramachandra; National Institute of Technology Karnataka, SurathkalItem Process Of Preparing Cocos Nucifera Waste derived High surface Carbon And Selection Of Electrolyte Concentration For Green Energy Storage Device(Indian Patent Office, Chennai, 2024-06-07) Hegde, Shreeganesh Subraya; Bhat, Badekai Ramachandra; National Institute of Technology Karnataka, SurathkalItem Process Of Deriving Activated Carbon From Dead Mangifera Indica Leaf Waste For High performance Supercapacitor(Indian Patent Office, Chennai, 2024-06-07) Hegde, Shreeganesh Subraya; Bhat, Badekai Ramachandra; National Institute of Technology Karnataka, SurathkalItem Process Of Deriving Porous Graphitic Carbon For High-Performance Supercapacitors From Biomass Waste(Indian Patent Office, Chennai, 2024-03-15) Hegde, Shreeganesh Subraya; Bhat, Badekai Ramachandra; National Institute of Technology Karnataka, SurathkalItem METAL CHALCOGENIDE-BASED NANOALLOY COMPOSITIONS FOR SEAWATER SPLITTING AND METHOD THEREOF(Indian Patent Office, Chennai, 2024-03-05) Rodney, John D; Joshi, Sindhur Umamaheshwar; N K, Udayashankar; Bhat, Badekai Ramachandra; Rao, Lavanya; Deepapriya, S; Raj, C. JustinItem Carbon Nanotubes and Graphene in Energy Storage and Catalysis(Studium Press LLC, USA, 2013) Rajarao, Ravindra; Bhat, Badekai RamachandraItem Zero-Dimensional Carbon Nanostructures for Supercapacitors(CRC Press, 2019) Mishra, Praveen; Bhat, Badekai RamachandraThe dependence of civilization on energy is rapidly increasing as the decades pass by. The world is now striving to find new sources to harness energy to meet this ever-increasing demand. This demand prompts research on energy generation and, more importantly, on energy storage devices. The latter has a high demand owing to the boom in the use of personal and portable electronic devices. Batteries have been catering to this requirement for quite some time now. Supercapacitors are the upcoming energy storing devices that can replace batteries due to their higher power output and fast recharge (Winter and Brodd 2004). A supercapacitor or an electrochemical capacitor is a simple device that can store charge at the interface of an electrode and an electrolyte (Kötz and Carlen 2000, Frackowiak and Béguin 2001). They are considered to be advantageous over batteries due to their very high specific capacitance, high power density, maintenance-free operations, no memory effect, and tapping into the massive void between the power-energy difference between capacitors and batteries.Item Correlation between Synthesis and Properties of Graphene(Materials Research Forum LLC, 2020) Mishra, Praveen; Bhat, Badekai RamachandraItem Synthesis of One Dimensional Carbon Nanostructures: Application in Catalysis and Hydrogen Storage(Lambert Academic Publishing, Germany, 2012) Rajarao, Ravindra; Bhat, Badekai RamachandraSince the discovery of carbon nanotubes by Sumio Iijima, an intensive research on carbon materials has been carried out. Carbon nanotubes and carbon nanofibers have drawn much attention due to their electronic and mechanical properties. However, because of low production capacity and high production costs at present, their applications cannot be extended until large-scale production is realized. Among the many synthetic methods, chemical vapor deposition method has advantages of high yield, high selectivity and low cost over traditional physical ones such as laser ablation and arc-discharge. High yield synthesis of one dimensional carbon nanostructures is essential for applications. In this book, an economical and environmental friendly route for the scalable production of CNTs and CNFs on easy soluble support has been discussed. The use of synthesized carbon nanotubes as catalyst support for oxidation of alcohols by Schiff base complexes and also as hydrogen storage materials is discussed in detail.