@fcojaime95@LatinXChem@fcojaime95@LatinXChem Hi! thanks for your question. Could be reproducibility. However, we do not know whether this random desing will affect cell growth.
@GrissSantiago@LatinXChem@GrissSantiago@LatinXChem thanks for your question. Our goal is to culture cells on the scaffold surface, in the area where the folds and connections can be seen. Yes, we expect the cells to penetrate the structure.
Hi @LatinXChem, my name is Maria Karolina Ramos, I’m PhD student at @GqmUfpr, and this is my work "Nanoarchitectonics thin film construction between MoS2, graphene and copper oxide for application in sodium ion battery". #LatinXChem#LXChemNanoMat#NanoMat103#2Dmaterials
@karenslab@LatinXChem@karenslab Hi! Thanks for your question. This technique allows us to create 3D structures without requiring expensive equipment such as a 3-D printer. Besides, we can create interconnections that could improve nutrient and oxygen transport.
Hello @LatinXChem, this is my work ‘Obtención de una estructura tridimensional de morfología controlada a base de nanotubos de carbono multipared y plantilla sacrificio’ #LatinXChem22#LXChemNanoMat#NanoMat001
@WaldmanLab@LatinXChem Thanks for your question. I have to say that I part from a film already made, after that I did the surface modification, the kind of modification is physical adsorption, that is a simple approach applied in this study which attaches the targeted filler on a polymer
@maria28187921@LatinXChem Gracias por tu pregunta. Se eligio el colágeno debido a que es el principal componente de la matriz extracelular, esto es importante debido a que uno de los objetivos de IT es imitar la matriz extracelular.
@olgaliir@LatinXChem Podría ser XPS de esta manera veríamos los picos relacionados al nitrógeno. El colágeno fue elegido debido a que es el mayor componente de la matriz extracelular, es importante mencionar que uno de los objetivos principales de TE es poder mimetizar la matriz extracelular.
@AnnieVaz03@LatinXChem GE have received attention since it possesses great mechanical and electrical features also, they can integrate into matrices polymers. Besides, the GE can be cheaper than other carbons nanomaterials like carbon nanotube
Hi @LatinXChem, this is my work "Evaluation of Mechanical Properties of PLA/Expanded Graphite films with Possible Application in Tissue Engineering" #LXChemMat#Mat045#LatinXChem