Over the past 100 years, plastics and polymers have changed the way the world operates, from airplanes and automobiles to computers and cell phones—nearly all of which are composed of fossil fuel-based compounds. A Florida State University research team
Over the past 100 years, plastics and polymers have changed the way the world operates, from airplanes and automobiles to computers and cell phones—nearly all of which are composed of fossil fuel-based compounds. A Florida State University research team's discovery of a new plastic derived from pine sap has the potential to be a gamechanger for new sustainable materials.
Green Futures: Newsletters > March 2013-Zero Waste, Mouse, Pitch Pine, Contest
Forests, Free Full-Text
Spatial variation in soil available water holding capacity alters carbon mobilization and allocation to chemical defenses along jack pine stems - ScienceDirect
Forests, Free Full-Text
Forests, Free Full-Text
Green Futures: Newsletters > March 2013-Zero Waste, Mouse, Pitch Pine, Contest
Upcycling Waste Poly(ethylene terephthalate) into a Porous Carbon Cuboid through a MOF-Derived Carbonization Strategy for Interfacial Solar-Driven Water–Thermoelectricity Cogeneration
Pine-to-Bioenergy: Potential of pine sap as adhesive and pine flower biomass waste in the production of biobriquettes - ScienceDirect
Atmosphere, Free Full-Text
Forests, Free Full-Text
Spatial variation in soil available water holding capacity alters carbon mobilization and allocation to chemical defenses along jack pine stems - ScienceDirect
Atmosphere, Free Full-Text