9 research outputs found
Efficient Synthesis of Polysubstituted Furans through a Base‐Promoted Oxacyclization of ( Z
No full textSynthesis and In vitro platelet aggregation and TP receptor binding studies on bicyclic 5,8-Ethanooctahydroisoquinolines and 5,8-Ethanotetrahydroisoquinolines
No full textSynthesis of Furans through Silver-Catalyzed Propargyl-Claisen Rearrangement Followed by Cyclocondensation
No full textCobalt(II)-Catalyzed Electrophilic Alkynylation of 1,3-Dicarbonyl Compounds To Form Polysubstituted Furans via
No full text
A [3 + 2]-annulation approach to tetrasubstituted furans from MBH-carbonates of acetylenic aldehydes via sequential substitution/cycloisomerization
No full text3D Printing of Poly(lactic acid)
No full text© Springer International Publishing AG 2017. Poly(lactic acid) has received considerable interest in biopolymer-related research because of its excellent biocompatibility and sustainability. With the advent of new processing routes based on additive manufacturing technologies – commonly called 3D printing – applications of PLA have become more and more widespread, especially in the biomedical field (e.g., as scaffolds for tissue engineering). This review focuses on three of the most important additive manufacturing routes: extrusion-based 3D printing techniques, powder-based laser sintering, and stereolithography. For each of these methods, we discuss the processing conditions and their effect on the end use of PLA.status: publishe
