Rohan B. Ambade
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View article: Sustainable high-pressure homogenization of hexagonal boron nitride for triboelectric nanogenerators: advancing self-powered environmental monitoring in portable electronics
Sustainable high-pressure homogenization of hexagonal boron nitride for triboelectric nanogenerators: advancing self-powered environmental monitoring in portable electronics Open
This work presents high-pressure homogenization method to develop 2D hBN flakes for triboelectric nanogenerators (TENG), achieving ∼135 V V oc , ∼17.0 μA I sc and a power density of 18 W cm −2 , enabling humidity monitoring and portable de…
View article: Influence of flexoelectricity on coupled electromechanical response of 2D MXene/graphene-based hybrid piezocomposites
Influence of flexoelectricity on coupled electromechanical response of 2D MXene/graphene-based hybrid piezocomposites Open
View article: Revolutionizing Implantable Technology: Biocompatible Supercapacitors as the Future of Power Sources
Revolutionizing Implantable Technology: Biocompatible Supercapacitors as the Future of Power Sources Open
Almost all implantable electronic medical devices (IEMDs) are powered by bulky Li‐ion batteries (LIBs), limiting their miniaturization and lifespan advancements. In addition, LIBs contain toxic materials and flammable electrolytes that are…
View article: Mechanical Behaviour, Contact Pose Estimation, and Finite Element Analysis of Vision Based Tactile Sensors Fabricated by Molding and Direct Ink Writing: A Comparative Study
Mechanical Behaviour, Contact Pose Estimation, and Finite Element Analysis of Vision Based Tactile Sensors Fabricated by Molding and Direct Ink Writing: A Comparative Study Open
This work pioneers the application of direct ink writing (DIW) to fabricate elastomeric additively manufactured vision based tactile sensor (VBTS). DIW cuts down the fabrication time by 76%, allowing design precise control and reducing the…
View article: Stencil-Printed Scalable Radial Thermoelectric Device Using Sustainable Manufacturing Methods
Stencil-Printed Scalable Radial Thermoelectric Device Using Sustainable Manufacturing Methods Open
In this study, we used n-chitosan-Bi2Te2.7Se0.3 and p-chitosan-Bi0.5Sb1.5Te3 composite inks to print a circular thermoelectric generator (TEG) device using a low-energy-input curing method. Thermoelectric (TE) composite films were fabricat…
View article: Interfacial Engineering Using Additive Manufacturing to Decouple Electrical and Thermal Conductivity for Next-Generation Thermoelectrics
Interfacial Engineering Using Additive Manufacturing to Decouple Electrical and Thermal Conductivity for Next-Generation Thermoelectrics Open
View article: Unlocking Highly Stable and Reversible In-Situ Integration of Defect-Rich 2d Vanadium Sulfide with Ti3c2t X Mxene Heterostructures: Boosting Asymmetric Supercapacitor Performance
Unlocking Highly Stable and Reversible In-Situ Integration of Defect-Rich 2d Vanadium Sulfide with Ti3c2t X Mxene Heterostructures: Boosting Asymmetric Supercapacitor Performance Open
View article: Ultrafast flashlight sintered mesoporous NiO nanosheets for stable asymmetric supercapacitors
Ultrafast flashlight sintered mesoporous NiO nanosheets for stable asymmetric supercapacitors Open
Ultrafast flashlight sintering (FLS) has become an important green manufacturing technology for the structural reformation of various nanomaterials. Nickel oxide (NiO) has been extensively studied as a promising electrode material for elec…
View article: Effect of particle-size distribution and pressure-induced densification on the microstructure and properties of printable thermoelectric composites and high energy density flexible devices
Effect of particle-size distribution and pressure-induced densification on the microstructure and properties of printable thermoelectric composites and high energy density flexible devices Open
View article: Large-scale wet-spinning of highly electroconductive MXene fibers
Large-scale wet-spinning of highly electroconductive MXene fibers Open
Ti 3 C 2 T x MXene is an emerging class of two-dimensional nanomaterials with exceptional electroconductivity and electrochemical properties, and is promising in the manufacturing of multifunctional macroscopic materials and nanomaterials.…