Nanoscopic therapeutic systems combining therapeutic agents with stimuli-responsive components,targeting molecules and diagnostic imaging materials have been extensively investigated as multifuncti
Nanoscopic therapeutic systems combining therapeutic agents with stimuli-responsive components,targeting molecules and diagnostic imaging materials have been extensively investigated as multifuncti
Due to the unique structure and excellent mechanical and electrical properties,carbon nanotubes have been widely incorporated into polymer to synthesize functional composite *** this point
Due to the unique structure and excellent mechanical and electrical properties,carbon nanotubes have been widely incorporated into polymer to synthesize functional composite *** this point
Characterization and optimization of material properties during synthesis and processing are frequent problems in materialsscience and engineering. In the present paper, the use of design of experiments (DOE) to char...
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Combinatorial phage display with a pVIII library of M13 bacteriophage was used to identify a peptide sequence capable of recognition and mineralization of copper sulfide. The six sequences isolated from the final biop...
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Combinatorial phage display with a pVIII library of M13 bacteriophage was used to identify a peptide sequence capable of recognition and mineralization of copper sulfide. The six sequences isolated from the final biopanning round were rich in basic, hydrophobic, and polar amino acids compared to the phage display library. The peptide sequence, DTRAPEIV, was used to biomineralize copper sulfide on the pVIII major coat protein thus producing linear chains of nanoparticles. Electron microscopy revealed that the phage was capable of controlling the size of the nucleated nanoparticles in an aqueous solution at room temperature and that the mineralized material was copper sulfide. Phage-templated biomineralization is a low temperature, aqueous-based approach to synthesis of copper sulfide nanoparticles with hierarchical order.
The unique structure and properties of graphene initiated broad fundamental and technological research, and highlighted graphene as a new candidate for various applications such as energy storage, solar cells and elec...
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The unique structure and properties of graphene initiated broad fundamental and technological research, and highlighted graphene as a new candidate for various applications such as energy storage, solar cells and electronic devices. Chemical vapor deposition (CVD) has been utilized for industrial large-scale synthesis of graphene. Regardless of the synthesis process, graphene should be transferred to arbitrary substrates for different applications. The transfer processes, introduce defects such as wrinkles and cracks in graphene which compromise the properties and applications. In recent years, fundamental research has been focused on characterization of graphene to develop new techniques for large-scale, high-resolution graphene metrology. Herein, a complementary high throughput metrology technique using fluorescent quenching is further investigated for different fluorescent dyes to characterize CVD synthesized graphene.
Low-temperature (LT) GaN layers with a columnar microstructure were grown on InN layers with various thicknesses. Subsequently, thick, hightemperature GaN layers were grown on the columnar LT GaN/InN/sapphire template...
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Deoxyribonucleic acids provide exciting opportunities as templates in self assembled architectures and functionality in terms of optical and electronic properties. In this study, we investigate the effects of metalize...
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