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書目名稱Graphene-based Materials in Health and Environment影響因子(影響力)




書目名稱Graphene-based Materials in Health and Environment影響因子(影響力)學(xué)科排名




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書目名稱Graphene-based Materials in Health and Environment網(wǎng)絡(luò)公開度學(xué)科排名




書目名稱Graphene-based Materials in Health and Environment被引頻次




書目名稱Graphene-based Materials in Health and Environment被引頻次學(xué)科排名




書目名稱Graphene-based Materials in Health and Environment年度引用




書目名稱Graphene-based Materials in Health and Environment年度引用學(xué)科排名




書目名稱Graphene-based Materials in Health and Environment讀者反饋




書目名稱Graphene-based Materials in Health and Environment讀者反饋學(xué)科排名

CARE

Graphene-Based Materials in Biosensing, Bioimaging, and Therapeuticsted materials for sensitive sensing, selective imaging and effective therapeutics has led to the creation of a unique class of materials known as graphene-based materials (GBMs). GBMs can be broadly classified into three groups: graphene-based nanocomposites, graphene quantum dots, and graphene-wrap

漫不經(jīng)心

Hybrid Graphene Metallic Nanoparticles for Biodetectionate, many analytical tools based on different physical, chemical, and biological phenomena have been developed for detection of biomolecules, biomedical imaging, and biosensing, including fluorescence spectroscopy, surface-enhanced Raman scattering (SERS), electrochemistry, and techniques that are b

Highbrow

Stem Cells Commitment on Graphene-Based Scaffolds in many fields, such as nanoelectronics, energy technology, sensors, and catalysis. In this context we should not forget the biomedical application of graphene that became a new area with outstanding potential. The first study on graphene for biomedical applications has been performed by Dai in 200

ESPY

Graphene: An Emerging Carbon Nanomaterial for Bone Tissue Engineeringne and its derivatives (graphene oxide and reduced graphene oxide) have remarkable mechanical properties, can be chemically modified and allow the attachment of molecules and proteins. Due to these characteristics, these carbon-based materials have received increasing attention for several biomedica

linear

Potentiality of Graphene-Based Materials for Neural Repaireing published on the ability of these materials to create biocompatible and biofunctional substrates able to promote the in vitro growth of neural cells, often supporting enhanced neural differentiation of stem/progenitor cells. Although in vivo studies with these materials are rare, encouraging pi

linear

Stimulus Responsive Graphene Scaffolds for Tissue Engineering. Recently, scientists started to engineer a new generation of nanocomposite scaffolds able to mimic biochemical and biophysical mechanisms to modulate the cellular responses promoting the restoration of tissue structure or function. Due to its unique electrical, topographical and chemical propertie

使習(xí)慣于

Graphene Hybrid Architectures for Chemical Sensors to be mother of all carbon materials with excellent electrical, mechanical, optical, and thermal properties that made its use for various engineering applications. Graphene and graphene hybrids have proved over the last decade to be promising material for chemical sensors. High surface-to-volume ra

遷移

Antimicrobial Properties of Graphene Nanomaterials: Mechanisms and Applicationspossess unique antimicrobial properties and offer multiple routes for functionalization into advanced nanocomposite materials. In this chapter, we review the current state of knowledge regarding the fundamental aspects of the antimicrobial interactions of graphene and graphene-based materials. Then,

保全

Toxicity and Environmental Applications of Graphene-Based Nanomaterialsaphene include graphene oxide (GO), reduced GO, GNP–polymer nanocomposites, and GNP–metal hybrids. These modifications of graphene nanoparticles can lead to nanomaterials or nanocomposites with different and novel properties, such as antimicrobial, adsorbent, and catalytic properties. As antimicrobi