Potential of blend of kappa-carrageenan and cellulose derivatives for green polymer electrolyte application

“…Generally, the addition of N and the plasticizer blend of G and S into C and W film matrices did not change the structure of the studied biopolymers. Similar spectra were observed by other authors who have studied carrageenan films, including nanocellulose and whey protein isolate film plasticized by glycerol …”

Fabrication of κ‐carrageenan and whey protein isolate‐based films reinforced with nanocellulose: optimization via RSM

“…Generally, the addition of N and the plasticizer blend of G and S into C and W film matrices did not change the structure of the studied biopolymers. Similar spectra were observed by other authors who have studied carrageenan films, including nanocellulose and whey protein isolate film plasticized by glycerol …”

Fabrication of κ‐carrageenan and whey protein isolate‐based films reinforced with nanocellulose: optimization via RSM

“…It is abundant in nature, non-toxic, renewable, biocompatible, and cost effective compared to synthetic polymers. 20 A few works have been reported in literature to make polymer electrolytes using kappa-carrageenan, such as biopolymer electrolytes based on carboxymethyl kappa-carrageenan and ionic liquid 1butyl-3-methylimidazolium chloride, 21 biopolymer blend based on kappa-carrageenan and cellulose derivatives, 22 which exhibit ionic conductivities of 5.76 AE 0.20 Â 10 À3 and 3.25 Â 10 À4 S cm À1 , respectively. Moreover, kappa-carrageenan also has been used as electrolyte for energy storage devices (e.g.…”

Flexible quasi-solid-state zinc ion batteries enabled by highly conductive carrageenan bio-polymer electrolyte

“…Los tipos de productos y procesos que han adoptado los principios de la química verde incluyen medicina, cosméticos [15], polímeros [16], producción de alimentos [17], producción de energía [18], empaques, productos de limpieza del hogar y comercial, industria electrónica [19] y automotriz [20].…”

Recent progress in synthesis, properties and potential applications of SiC nanomaterials