Nanomaterials for Spectroscopic Applications
An Emerging Avenue of Functional Graphene Aggregated Liquid Crystalline Hybrid Nanocomposite Diverse Attempts: Key Challenges and Novel PremisesIntroductionLiquid Crystalline Materials by NanodopantsCarbon Based Materials Graphene Dopant Liquid CrystalsDesigning and Synthesis of NanomaterialsFabrication of Cadmium Sulfide (CdS) Nanostructures Assembled LC MatrixFabrication of Titanium Dioxide (TiO2) Nanostructures Assembled LC MatrixControllable Synthetic Mechanism of Zinc Oxide (ZnO) Nanostructures Assembled LC MatrixLC-Aggregated Self-Assembly Nanomaterials and CNTs/GraphenePhoto Refractive ITO-LC Cell Manufacturing PrincipleLiquid Crystal Phase Transition and Switchable Device ImplementationsGraphene Deposited Liquid Crystalline Nanocomposite Phase TransitionElectro-optical (EO) Phase Transition of Switchable Sensor ModulationHomogeneously Dispersed Graphene-Liquid Crystal in Organic SolventsChemical Formulation of GO-LC Hybrid NanocompoundsConclusions, Outlook and PerspectivesSpectroscopic and Microscopic Response of Graphene/CNTs Based NanomaterialsIntroductionGraphene and CNT NanomaterialsSynthesis of GrapheneMicromechanical exfoliationElectrochemical exfoliationChemical synthesisEpitaxial growthChemical vapor depositionChemical reductionLiquid-phase exfoliationBiogenic reductionSynthesis of Carbon NanotubesArc dischargeLaser ablationChemical vapor depositionElectrolysisSpray pyrolysisHydrothermal/sonochemicalBall millingOrganic synthesisProperties of Graphene and Carbon NanotubesGraphene/CNT NanocompositesSynthesis of Graphene/CNT NanocompositesAssembly approachIn situ approachOther methodsProperties of Graphene/CNT NanocompositesMechanical and thermal propertiesElectrical and optical propertiesThe Spectroscopic Response of Graphene/CNT NanocompositesRaman SpectroscopyUV-Visible SpectroscopyFT-IR SpectroscopyThe Microscopic Response of Graphene/CNT NanocompositesScanning Electron MicroscopyTransmission Electron MicroscopyAtomic Force MicroscopyApplications of Graphene/CNTs Based NanomaterialsElectrical and Electronic ApplicationsThermal ApplicationsEnvironmental ApplicationsBiomedical ApplicationsOther ApplicationsConclusionThermotropic Hydrogen-Bonded Liquid Crystals (HBLCs) Spectral Analysis of Phase Transition: Limitations, Perspectives and ChallengesIntroductionExperimental DetailsMaterial PreparationResults and DiscussionConventional ThermistorTheoretical Modeling of Liquid Crystal AnalysisLiquid crystal thermistorLiquid crystal thermistor fabricationLiquid Crystal Exhibiting Positive Temperature CoefficientThermo resistance: cholestericComparison of magnitude of thermistor properties in various phasesMolecular modelingLiquid Crystal Exhibiting Negative Temperature CoefficientThermo resistance: Sm C*Current versus Voltage Characteristics of Liquid Crystal ThermistorsConclusions, Outlook and ChallengesPerspectives and Future ScopesGreen Nanostructures Synthesis and Spectroscopic CharacterizationsIntroductionSec-Met: An Effective Source for Green Nanostructural SynthesisInnovative Focuses on Green Nanostructural FormulationPractices for Characterization of Green-Formulated NPsOptimistic PositivityConclusionSynthesis, Designing and Challenges of Functionalized Polymeric Nanomaterials and Their Spectroscopic ApplicationsIntroductionSelf-Assembly to Form Polymeric NanoparticlesBlock copolymersDendrimersLipidsSurface Engineered Polymeric NanoparticlesNano Encapsulated PolymerSpectroscopic Applications of Polymeric NanoparticlesSurface Enhanced Raman Spectroscopy (SERS)X-Ray ImagingFluorescence ImagingOther ApplicationsConclusions and Future ScopeFabrication of Ultra-Pure Anisotropic Nanoparticles, Spectroscopic Studies and Biological ApplicationsIntroductionFabrication Approaches for SynthesisPolyol SynthesisBiological SynthesisSeed Mediated SynthesisTemplate Mediated SynthesisHydrothermal ApproachElectrochemicalPhotochemicalSpectroscopic Analysis of Fabricated NanoparticlesBiological Applications of Anisotropic NanoparticlesToxicity of PathogensMedicalBio-imaging and biosensingWound healingGene editing and gene deliveryTherapeuticsVaccinologyBio-graftingCosmeticsDisinfectantsFood IndustryFeed additivesFood packaging and processingBioremediationAgriculturalConclusion and Future OutlookBioinspired Nanomaterials for Improving Sensing and Imaging SpectroscopyIntroductionTypes of BionanomaterialsPeptidesImaging ApplicationsProtein CagesVirus-Like Particles (VLPs)Cowpea chlorotic mottle virus (CCMV)Cowpea mosaic virus capsid protein (CPMV)Enterobacteriaceae (MS2)Q βBrome mosaic virus (BMV)Non-viral Protein CagesEnterobacteria phage (E2)EncapsulinFerritin (maxi-ferritin)Dps 4 (mini-ferritin)Lumazine synthaseVault proteinNatural PolymersConclusions, Outlook and Future ScopesGreen Nanomaterials: Synthesis, Properties and Spectroscopic ApplicationsIntroductionGreen Chemistry and Green NanotechnologySynthesis of Green NanomaterialsBiogenic Synthesis of NanoparticlesPlant-Based Synthesis of NanoparticlesPlant-Based Synthesis of NanostructuresSynthesis of Green Nanoceramics and NanocompositesEthical and Environmental Concerns Related to Green NanomaterialsEngineered Properties of Green NanomaterialsStructure-Based Properties of Functional Semiconductor Green NanomaterialsDominance of the electromagnetic forceQuantum effectsSurface to volume ratioRandom molecular movementOptoelectrical and Semiconductor Properties of Green NanomaterialsMechanical and Thermal Properties of Green NanomaterialsEnvironmental Issues Pertaining to Green Nanomaterials’ PropertiesApplications of Green NanomaterialsApplications as Functional MaterialsApplications in Semiconductor IndustryApplications in OptoelectronicsApplications in Spectral AnalysisEnvironmental Concerns and Remedies Pertaining to the Application of Green NanomaterialsConclusionsFunctional Green Nanomaterials Designing Approach to Spectroscopic EvaluationIntroductionSolar CellsTypes of Solar CellsInorganic Solar CellsOrganic Solar CellsTandem CellsPerovskite Solar CellsPhotonic CrystalsPolymer NanocompositesNatural PolymersNatural BiopolymerChitin and ChitosanPreparation of NanochitosanFabrication of Solar CellsSpectroscopic Characterization and EvaluationFourier Transform–Infra-Red Spectroscopy (FT-IR)Transmission Electron Microscopy (ТЕМ)Scanning Electron Microscope (SEM)ConclusionGreen Chemistry Assisted Synthesis of Metallic Nanomaterials ApplicationsIntroductionImportance of Metallic NanomaterialsProduction of Various Metallic Nanomaterials Using Green ChemistryMetallic Nanomaterials in Environmental and Biological ApplicationsPhotocatalytic PerformanceAntibacterial Activity of Metallic NanomaterialsAnticancer Activity of Metallic NanomaterialsConclusions, Outlook and PerspectivesPreparation of Metal Nanoparticles Extractions from Green Natural ProductsIntroductionClassification of NanomaterialsNanoparticlesCategorization of NanoparticlesSynthesis of NanoparticlesBiological SynthesisAlgae-Mediated SynthesisFungal-Mediated SynthesisBacteria Mediated SynthesisPlant Mediated SynthesisOther Bioresource Mediated SynthesisWhy Plant Mediated Nanoparticles Synthesis?Factors Influencing Green SynthesisImpact of pHTemperatureTimeConcentrationOther Influencing ParameterChallenges in Green Synthesis of MNPsReproducibilityScale-UpUpcoming Perception(s) in Green SynthesisConclusionOstwald Ripening of PDIF-CN2 Molecules on Bilayer and Multilayer GrapheneIntroductionExperimentsResults and DiscussionConclusion
