Isosorbide dioctoate as a “green” plasticizer for poly
Isosorbide dioctoate (SDO), a “green” plasticizer for poly (lactic acid) (PLA), was synthesized and evaluated as bio-based alternative to traditional phthalate plasticizers. The structure of SDO was confirmed by FTIR and 1H NMR. The miscibility, thermal properties, mechanical properties and transparency of the PLA/SDO blends were
Title: A Review on Plasticizers and Eco-Friendly
Citrate plasticizers have good miscibility, biodegradable, resistant to leaching and water and have legal use as additives. The demand for bioplasticizers is reported to increase from 887...
Bioplastics: A Green Approach Toward Sustainable Environment
They are blends of organic and inorganic additives, plasticizers, fillers etc., to enhance material properties for the final application. Polymers are large molecules made up of many smaller units of molecules, called monomers. Figure 3.1 shows a simplified version of the transition from monomer to polymeric structure.
Allnex Acrylate Monomers | The EBECRYL Range - allnex
EBECRYL 117 is a hydroxy functional monoacrylate characterized by low odor, good adhesion and high reactivity. EBECRYL 117 can be used in UV/EB cured coatings, inks and adhesives to low viscosity and increase flexibility. EBECRYL 118 is an aromatic monoacrylate that can be used as a reactive diluent in UV/EB cure coatings, inks and adhesives.
Acrylic Monomers
Acrylic monomers are the base material for a diverse range of applications and end products. BASF offers acrylic acid as well as the whole product range of acrylic monomers. More Applications Acrylic monomers are all around us and form part of our everyday lives in diverse guises.
- Can visible-light-driven polymerization reactions enable the green synthesis of plastics?
- Visible light can also be applied to polymerization reactions for the synthesis of well-defined polymeric materials with desired properties. Here, we discuss visible-light-driven polymerization reactions, highlighting how this approach could enable the green synthesis of plastics.
- Are biobased monomers functionalized with acrylamides?
- Biobased monomers functionalized with acrylamides (ACM) are little explored . The few acrylamidations in biomasses carried out so far are focused on modifications of vegetable oils, lignin, proteins and carbohydrates [17, 18, 22, 23]. N-hydroxyethyl acrylamide (HEAA), for example, is a low-cost and readily available ACM.
- Can acrylate terpene oxides create multifunctional monomers?
- The potential formation of multifunctional monomers through the addition of acrylate groups to terpene oxides can increase the entry points for specific and previously thought chemical modifications to construct custom-made polymeric materials and/or Bio-based Chemical Building Blocks (BCBB) from biomass terpenic [6, 26, 27, 28].
- What are biobased acrylic polymers?
- Biobased acrylic polymers developed from vegetable oils and cellulose are very popular nowadays. Using acrylic derivatives of vegetable oils and cellulose as naturally obtained materials leads to long-lasting biopolymers with a wide range of high exploitation properties and applications.
- Which polymer is a competitive alternative to petrochemicals?
- Polymer materials obtained from biomass are a competitive alternative comparing with those made from petrochemicals. Domestically and industrially used vegetable oil derivatives are considered widely available, while cellulose derivatives are the most abundant natural polymers.
- Are there alternative plasticizers?
- There are a considerable number of alternative plasticizers in employment, without any toxicological data available (dibutyl adipate, diethylene glycol dibenzoate, and bis-2-ethylhexyl sebacate, to name a few).
