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Enhanced CO2 capture through bulky poly(urethane-urea)-based MMMs containing hyperbranched triazine based silica nanoparticles
Enhanced CO2 capture through bulky poly(urethane-urea)-based MMMs containing hyperbranched triazine based silica nanoparticles
Enhanced CO2 capture through bulky poly(urethane-urea)-based MMMs containing hyperbranched triazine based silica nanoparticles
Conjugate active and reactive power management in a smart distribution network through electric vehicles: A mixed integer-linear programming model
Conjugate active and reactive power management in a smart distribution network through electric vehicles: A mixed integer-linear programming model
Providing a model for Csf according to pool boiling convection heat transfer of water/ferrous oxide nanofluid using sensitivity analysis
Synthesis of graphene oxide-polychrysoidine nanocomposite for supercapacitor applications
Synthesis of graphene oxide-polychrysoidine nanocomposite for supercapacitor applications
Synthesis of graphene oxide-polychrysoidine nanocomposite for supercapacitor applications
Drought stress improves the composition of secondary metabolites in safflowerflower at the expense of reduction in seed yield and oil content
Drought stress improves the composition of secondary metabolites in safflowerflower at the expense of reduction in seed yield and oil content
A green strategy toward the preparation of poly (vinyl chloride) nanocomposites reinforced with MnO2@layered double hydroxide nanohybrids as efficient UV shielding materials
Electrospun core -shell nanofibers based on polyethylene oxide reinforced by multiwalled carbon nanotube and silicon dioxide nanofillers: A novel and effective solvent\u2010free electrolyte for lithium ion batteries
Electrospun core -shell nanofibers based on polyethylene oxide reinforced by multiwalled carbon nanotube and silicon dioxide nanofillers: A novel and effective solvent\u2010free electrolyte for lithium ion batteries
Electrospun core -shell nanofibers based on polyethylene oxide reinforced by multiwalled carbon nanotube and silicon dioxide nanofillers: A novel and effective solvent\u2010free electrolyte for lithium ion batteries