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Choline chloride?urea deep eutectic solvent as an efficient media for the synthesis of propargylamines via organocuprate intermediate
Mechanism of lithiation of amino acids in aqueous solutions: A laser desorption/ionization-time-of- flight mass spectrometry and theoretical study
Mechanism of lithiation of amino acids in aqueous solutions: A laser desorption/ionization-time-of- flight mass spectrometry and theoretical study
Interleaved ultra-high step down converter with low component count
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
Pd/Cu-Free Heck and C-N Coupling Reactions Using Two Modified Magnetic Chitosan Cobalt Catalysts: Efficient, Inexpensive and Green Heterogeneous Catalysts
Pd/Cu-Free Heck and C-N Coupling Reactions Using Two Modified Magnetic Chitosan Cobalt Catalysts: Efficient, Inexpensive and Green Heterogeneous Catalysts
Durability of concrete containing recycled concrete coarse and fine aggregates and milled waste glass in magnesium sulfate environment
Porous triazine polymer: A novel catalyst for the three-component reaction
On Conditional Inactivity Time of Failed Components in an (n-k+1)-out-of-n System with Nonidentical Independent Components
ReDMark: Framework for residual diffusion watermarking based on deep networks
ReDMark: Framework for residual diffusion watermarking based on deep networks
Effect of synthesis and sintering technique on the long-range 1:3 cation ordering and microwave dielectric loss of Li2ZnTi3O8 ceramics