Elton Graugnard,William L Hughes,Ralf Jungmann et al.
Elton Graugnard et al.
Structural DNA nanotechnology is revolutionizing the ways researchers construct arbitrary shapes and patterns in two and three dimensions on the nanoscale. Through Watson-Crick base pairing, DNA can be programmed to form nanostructures with...
Clinical significance of three-dimensional printed biomaterials and biomedical devices [0.03%]
三维打印生物材料和医疗器械的临床应用及意义
Susmita Bose,Kellen D Traxel,Ashley A Vu et al.
Susmita Bose et al.
Three-dimensional printing (3DP) is becoming a standard manufacturing practice for a variety of biomaterials and biomedical devices. This layer-by-layer methodology provides the ability to fabricate parts from computer-aided design files wi...
Sculpting Light by Arranging Optical Components with DNA Nanostructures [0.03%]
利用DNA纳米结构排列光学组件进行光线雕刻
Mauricio Pilo-Pais,Guillermo P Acuna,Philip Tinnefeld et al.
Mauricio Pilo-Pais et al.
DNA nanotechnology has developed into a state where the design and assembly of complex nanoscale structures has become fast, reliable, cost-effective, and accessible to non-experts. Nanometer-precise positioning of organic (dyes, biomolecul...
Microscopy techniques for investigating the control of organic constituents on biomineralization [0.03%]
显微技术在探究有机成分对生物矿化影响中的应用
Coit T Hendley th,Jinhui Tao,Jennie A M R Kunitake et al.
Coit T Hendley th et al.
This article addresses recent advances in the application of microscopy techniques to characterize crystallization processes as they relate to biomineralization and bio-inspired materials synthesis. In particular, we focus on studies aimed ...
Jamal S Lewis,Krishnendu Roy,Benjamin G Keselowsky
Jamal S Lewis
Recently, biomaterial scientists have married materials engineering and immunobiology to conceptualize new immunomodulatory materials. This special class of biomaterials can modulate and harness the innate properties of immune functionality...
Biopolymers and supramolecular polymers as biomaterials for biomedical applications [0.03%]
生物聚合物和超分子聚合物作为生物医药应用的生物材料
Ronit Freeman,Job Boekhoven,Matthew B Dickerson et al.
Ronit Freeman et al.
Protein- and peptide-based structural biopolymers are abundant building blocks of biological systems. Either in their natural forms, such as collagen, silk or fibronectin, or as related synthetic materials they can be used in various techno...
Magnetic Nanoparticles for Early Detection of Cancer by Magnetic Resonance Imaging [0.03%]
磁性纳米颗粒在磁共振成像技术癌症早期检测中的应用研究
Wenbin Lin,Taeghwan Hyeon,Gregory M Lanza et al.
Wenbin Lin et al.
This article provides a brief overview of recent progress in the synthesis and functionalization of magnetic nanoparticles and their applications in the early detection of malignant tumors by magnetic resonance imaging (MRI). The intrinsic ...
Katherine J R Lewis,Kristi S Anseth
Katherine J R Lewis
Poly(ethylene glycol) (PEG) hydrogels represent a versatile material scaffold for culturing cells in two or three dimensions with the advantages of limited protein fouling and cytocompatible polymerization to enable cell encapsulation. By u...
Ashish C Jachak,Megan Creighton,Yang Qiu et al.
Ashish C Jachak et al.
As graphene technologies progress to commercialization and large-scale manufacturing, issues of material and processing safety will need to be more seriously considered. The single word "graphene" actually represents a family of related mat...
Gerard C L Wong,George A O&#x;Toole
Gerard C L Wong
Bacterial biofilms are integrated, multi-species communities of cells that adhere to almost any surface and are fundamental to the ecology and biology of bacteria. Not only do biofilms contribute to human health and disease, they also play ...