(4,5) On the structural side, 3D printing has gone beyond instrumentation applications, (6,7) and printing useful one-of-a-kind holders and laboratory appliances (8) or helpful teaching resources (9) and now modular and custom designed reactionware tailored for particular chemical reactions can be produced. Once a niche for engineering or hobbies, applications of 3D printings now span from structural to functional with 3D printed parts now actively participating in chemical reactions for catalysis (1−3) and energy storage. Additive manufacturing, more commonly known as 3D printing, has impacted chemistry laboratories at both the teaching and research levels.
0 kommentar(er)
