Cure Efficiency and Biocompatibility of an Iron-Based Coordination Complex as a Photoinitiator for Dental 3D-Printed Resins [0.03%]
一种铁基配位复合物作为牙用3D打印树脂光引发剂的疗效及生物相容性研究
Sharanya Singh,Mateus Garcia Rocha,Mario Alexandre Coelho Sinhoreti et al.
Sharanya Singh et al.
Objective: The aim of this study was to evaluate the cure efficiency and biocompatibility of a novel iron-based coordination complex used as a photoinitiator in comparison to conventional ethyl (2,4,6-trimethylbenzoyl) ph...
Mahyar Naseri,Aysan Hedayatnazari,Lobat Tayebi
Mahyar Naseri
Infectious diabetic wounds can result in severe injuries or even death. Biocompatible wound dressings offer one of the best ways to treat these wounds, but creating a dressing with a suitable hydrophilicity and biodegradation rate can be ch...
Fereshte Rezaie,Masoud Farshbaf,Mohammad Dahri et al.
Fereshte Rezaie et al.
Revolutionary fabrication technologies such as three-dimensional (3D) printing to develop dental structures are expected to replace traditional methods due to their ability to establish constructs with the required mechanical properties and...
Aligned Collagen-CNT Nanofibrils and the Modulation Effect on Ovarian Cancer Cells [0.03%]
有序排列的胶原-碳纳米管纳米纤维及其对卵巢癌细胞的作用研究
Wen Li,Naiwei Chi,Elwin D Clutter et al.
Wen Li et al.
Fibrillar collagen is a one-dimensional biopolymer and is the most abundant structural protein in the extracellular matrix (ECM) of connective tissues. Due to the unique properties of carbon nanotubes (CNTs), considerable attention has been...