Journal ArticleDOI
Three-dimensional porous scaffold by self-assembly of reduced graphene oxide and nano-hydroxyapatite composites for bone tissue engineering
Wei Nie,Cheng Peng,Xiaojun Zhou,Liang Chen,Weizhong Wang,Yanzhong Zhang,Peter X. Ma,Chuanglong He +7 more
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TLDR
3D porous RGO composite prepared from graphene oxide and nano-hydroxyapatite via self-assembly has a promising capacity to stimulate mineralization and promote the in vivo defect healing.About:
This article is published in Carbon.The article was published on 2017-05-01. It has received 177 citations till now. The article focuses on the topics: Bone cell & Bone healing.read more
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Recent advances in biomaterials for 3D scaffolds: A review.
Maria P. Nikolova,Murthy Chavali +1 more
TL;DR: A comprehensive summary of recent trends in development of single- (metal, ceramics and polymers), composite-type and cell-laden scaffolds that in addition to mechanical support, promote simultaneous tissue growth, and deliver different molecules or cells with therapeutic or facilitating regeneration effect is offered.
Journal ArticleDOI
Scaffold fabrication technologies and structure/function properties in bone tissue engineering
TL;DR: A comprehensive review of the current accomplishments on scaffold fabrication techniques, their structure, and function properties for BTE is provided and strategies to improve vascularization potential and immunomodulation are presented.
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Graphene oxide: An efficient material and recent approach for biotechnological and biomedical applications.
Dinesh Pratap Singh,Carlos Herrera,Brijesh Singh,Shipra Singh,Rajesh Kumar Singh,Rajesh Kumar +5 more
TL;DR: This review deals with the bio application of GO and the recent advancement as a biosensors, antibacterial agent, early detection of cancer, cancer cell imaging/mapping, targeted drug delivery and gene therapy etc.
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Bone tissue engineering: Scaffold preparation using chitosan and other biomaterials with different design and fabrication techniques
TL;DR: This review aims to provide an overview of different types of fabrication techniques for scaffold preparation in bone tissue engineering using biological macromolecules.
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A Review on Properties of Natural and Synthetic Based Electrospun Fibrous Materials for Bone Tissue Engineering.
TL;DR: This review will cover the fundamental basis of cell adhesion, differentiation, and proliferation of the electrospun fibers in bone tissue scaffolds, and the current development and future perspectives on the use of Electrospun mats inBone tissue engineering.
References
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Graphene: Status and Prospects
TL;DR: This review analyzes recent trends in graphene research and applications, and attempts to identify future directions in which the field is likely to develop.
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The chemistry of graphene oxide
TL;DR: This review will be of value to synthetic chemists interested in this emerging field of materials science, as well as those investigating applications of graphene who would find a more thorough treatment of the chemistry of graphene oxide useful in understanding the scope and limitations of current approaches which utilize this material.
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PEGylated Nanographene Oxide for Delivery of Water-Insoluble Cancer Drugs
TL;DR: The results showed that graphene is a novel class of material promising for biological applications including future in vivo cancer treatment with various aromatic, low-solubility drugs.
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Self-Assembled Graphene Hydrogel via a One-Step Hydrothermal Process
TL;DR: This paper prepares a self-assembled graphene hydrogel (SGH) via a convenient one-step hydrothermal method and shows that the high-performance SGH with inherent biocompatibility of carbon materials is attractive in the fields of biotechnology and electrochemistry.
Posted Content
PEGylated Nano-Graphene Oxide for Delivery of Water Insoluble Cancer Drugs
TL;DR: In this article, the authors functionalized nano-graphene oxide (NGO), a novel graphitic material, with branched polyethylene glycol (PEG) to obtain a biocompatible NGO-PEG conjugate stable in various biological solutions, and used them for attaching hydrophobic aromatic molecules including a camptothecin analog, SN38 non-covalently via pi-pi stacking.