2021
Biocompatibility of nanomaterials and their immunological properties
Kyriakides TR, Raj A, Tseng TH, Xiao H, Nguyen R, Mohammed FS, Halder S, Xu M, Wu MJ, Bao S, Sheu WC. Biocompatibility of nanomaterials and their immunological properties. Biomedical Materials 2021, 16: 042005. PMID: 33578402, PMCID: PMC8357854, DOI: 10.1088/1748-605x/abe5fa.Peer-Reviewed Original ResearchConceptsMetal/metal oxideBiocompatibility of nanomaterialsNanomaterialsNovel sensingMetal oxidesBiocompatibilityOverall biocompatibilityBulk materialClinical trialsOccupational exposureTherapeutic approachesSystemic effectsNanotoxicityClinical useFabricationPutative negative effectsImmunological propertiesSensingCell typesOxideLiposomesHost proteinsReciprocal interactionsApplicationsCarbon
2014
Metallic 1T phase source/drain electrodes for field effect transistors from chemical vapor deposited MoS2
Kappera R, Voiry D, Yalcin S, Jen W, Acerce M, Torrel S, Branch B, Lei S, Chen W, Najmaei S, Lou J, Ajayan P, Gupta G, Mohite A, Chhowalla M. Metallic 1T phase source/drain electrodes for field effect transistors from chemical vapor deposited MoS2. APL Materials 2014, 2: 092516. DOI: 10.1063/1.4896077.Peer-Reviewed Original ResearchSource/drain electrodesContact resistanceDrain electrodesLow contact resistanceLarge contact resistancePerformance of devicesDimensional transition metal dichalcogenidesField-effect transistorsGood mobility valuesTransition metal dichalcogenidesDirect band gapHigh resistance contactsResistance contactsDevice propertiesEffect transistorsFET performanceChemical vaporElectronic materialsBulk materialPhase transformationResistance electrodesElectrodeMetal dichalcogenidesBand gapT phase
2013
Solid state adaptive natural density partitioning: a tool for deciphering multi-center bonding in periodic systems
Galeev T, Dunnington B, Schmidt J, Boldyrev A. Solid state adaptive natural density partitioning: a tool for deciphering multi-center bonding in periodic systems. Physical Chemistry Chemical Physics 2013, 15: 5022-5029. PMID: 23443061, DOI: 10.1039/c3cp50350j.Peer-Reviewed Original Research
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