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《生物电子学最新进展(英文版)》适合生物医学工程、电子工程、分析化学、材料工程和生物工程,以及其他生物医学相关专业的本科生、研究生及研究人员阅读和参考。
目录
Preface
Chapter1ThePhotoelectricDetectionattheSingleCellLevel
1.1Introduction
1.2Dielectrophoresis
1.3OpticalTweezers
1.4Microfluidics
1.5Microelectrodes
1.6Conclusions
References
Chapter2DevelopmentofMultipleTransmission-ReflectionInfraredSpectroscopy
2.1IntroductionofInfraredAbsorptionMethodologiesforThinFilms
2.2OpticalTheory
2.3GrazingAngleMirror-BackedReflection
2.4MultipleTransmission-ReflectionInfraredSpectroscopy
2.5OrientationAnalyseswithIRSpectroscopy
2.6Summary
References
Chapter3MolecularInteractionsatModelCellMembranesInvestigatedUsingNonlinearOpticalSpectroscopy
3.1Introduction
3.2SumFrequencyGenerationVibrationalSpectroscopy
3.3InteractionsBetweenModelCellMembranesandSmallDrugMolecules
3.4InteractionsBetweenModelCellMembranesandNanomaterials
3.5InteractionsBetweenModelCellMembranesandPeptides
3.6InteractionsofMembraneAssociatedProteins
3.7ConclusionsandOutlooks
3.8Acknowledgement
References
Chapter4MicroparticleBasedBiochips'PreliminarySubsections
4.1Introduction
4.2PlainMicroparticles
4.3EncodedMicroparticles
4.4MicroparticlesandChips
4.5InstrumentationforMicroparticlesAnalysis
4.6ConclusionsandProspective
References
Chapter5BiomedicalApplicationsofZwitterionicAntifoulingPolymersBasedNanoparticles
5.1Introduction
5.2BiomedicalApplicationsofZwitterionicNanoparticles
5.3ConclusionsandOutlooks
References
Chapter6NucleosomeOrganizationAroundTranscriptionalSitesandItsRoleinGeneRegulation
6.1Introduction
6.2NucleosomeDepletionUpstreamofTranscriptionStartSites
6.3NucleosomeOccupancyAroundTranscriptionalSpliceSites
6.4NucleosomePositioningintheVicinityofTranscriptionTerminationSites
6.5NucleosomeOccupancyPatternsAroundTranscriptionFactorBindingSites
6.6Conclusions
References
Chapter7VirtualandAugmentedRealityinMedicalandBiomedicalEducation
7.1Introduction
7.2Reality-VirtualityContinuum
7.3VirtualandAugmentedRealityApplicationsinMedicalandBiomedicalEducation
7.4CurriculumandUserStudies
7.5Challenges
7.6Conclusions
7.7Acknowledgement
References
Chapter8RelatingInformationinEEGstoNeurocognitiveProcesses
8.1TheImportanceofEEGinCognitiveNeuroscience
8.2SignificantFindingsinAttention,Language,andSocialCognition
8.3Summary
References
Chapter9Detection,Processing,andApplicationofNeuralSignals
9.1IntroductiontotheNervousSystem
9.2ElectricalPropertiesofNervesandPropagationofActionPotentials
9.3DetectionandRecordingofNeuralSignals
9.4NeuralSignalProcessingandPatternRecognition
9.5FunctionalElectricalStimulationofNerves
9.6MicroelectronicNeuralSignalRegeneration
9.7Summary
Chapter10CerebralGliomaGradingUsingBayesianNetworkwithFeaturesExtractedfromMulti-modalMRI
10.1Introduction
10.2Methods
10.3Results
10.4Discussion
10.5Conclusions
10.6Acknowledgement
References
Chapter11Histotripsy:Image-guided,Non-invasiveUltrasoundSurgeryforCardiovascularandCancerTherapy
11.1Introduction
11.2Physics
11.3ImageGuidance
11.4CongenitalHeartDiseaseApplication
11.5ThrombolysisApplication
11.6LiverCancerApplication
11.7SummaryandFutureWork
11.8Acknowledgement
References
ColorInset
文摘
版权页:
Structure colors generated due to the reflection ofpenodic nanostructures of dielectricmaterial called photonic crystals,which can prohibit the propagation of electromagneticwaves in a range of frequencies(49l.The color or reflection wavelength is determined bysystem refractive index and the structural period of the dielectric system according to theBragg's law,m.=2ndsin0.Therefore,they are tunable and resistant to photo destroy likephoto quenching or photo bleaching,which make them a kind of ideal color encodingstrategy.The first application as carriers in the encoded DNA and protein detection isexplored by Sailor et al.In their work,porous silicon photonic crystal flakes werefabricated by galvanostatic anodic etch of crystalline silicon wafers.The porosity andthickness of the porous silicon were controlled by the current density,the composition ofthe etchant solution,and the duration of the etch cycle,different colors were generated asreflection peaks in the VISNIR region with a full—width at half—maximum(FWHM)of11 nm by varying a computer—generated pseudo—sinusoidal current waveform.And it ismuch smaller than emission spectra of QDs(20 nm)and fluorescence dyes(more than50 nm).And etching multiple porous layers on a single flake could generate more encodingspectra.For example,a ten—bit binary code is composed of combinations of differentreflection intensities and peakslsi,s21 Therefore,it is possible to generate 41o codes forultrahigh level of multiplexing.But the anisotropic 1D microparticles still need to beproperly oriented to avoid standing or stacking in the decoding process.
《生物电子学最新进展(英文版)》适合生物医学工程、电子工程、分析化学、材料工程和生物工程,以及其他生物医学相关专业的本科生、研究生及研究人员阅读和参考。
目录
Preface
Chapter1ThePhotoelectricDetectionattheSingleCellLevel
1.1Introduction
1.2Dielectrophoresis
1.3OpticalTweezers
1.4Microfluidics
1.5Microelectrodes
1.6Conclusions
References
Chapter2DevelopmentofMultipleTransmission-ReflectionInfraredSpectroscopy
2.1IntroductionofInfraredAbsorptionMethodologiesforThinFilms
2.2OpticalTheory
2.3GrazingAngleMirror-BackedReflection
2.4MultipleTransmission-ReflectionInfraredSpectroscopy
2.5OrientationAnalyseswithIRSpectroscopy
2.6Summary
References
Chapter3MolecularInteractionsatModelCellMembranesInvestigatedUsingNonlinearOpticalSpectroscopy
3.1Introduction
3.2SumFrequencyGenerationVibrationalSpectroscopy
3.3InteractionsBetweenModelCellMembranesandSmallDrugMolecules
3.4InteractionsBetweenModelCellMembranesandNanomaterials
3.5InteractionsBetweenModelCellMembranesandPeptides
3.6InteractionsofMembraneAssociatedProteins
3.7ConclusionsandOutlooks
3.8Acknowledgement
References
Chapter4MicroparticleBasedBiochips'PreliminarySubsections
4.1Introduction
4.2PlainMicroparticles
4.3EncodedMicroparticles
4.4MicroparticlesandChips
4.5InstrumentationforMicroparticlesAnalysis
4.6ConclusionsandProspective
References
Chapter5BiomedicalApplicationsofZwitterionicAntifoulingPolymersBasedNanoparticles
5.1Introduction
5.2BiomedicalApplicationsofZwitterionicNanoparticles
5.3ConclusionsandOutlooks
References
Chapter6NucleosomeOrganizationAroundTranscriptionalSitesandItsRoleinGeneRegulation
6.1Introduction
6.2NucleosomeDepletionUpstreamofTranscriptionStartSites
6.3NucleosomeOccupancyAroundTranscriptionalSpliceSites
6.4NucleosomePositioningintheVicinityofTranscriptionTerminationSites
6.5NucleosomeOccupancyPatternsAroundTranscriptionFactorBindingSites
6.6Conclusions
References
Chapter7VirtualandAugmentedRealityinMedicalandBiomedicalEducation
7.1Introduction
7.2Reality-VirtualityContinuum
7.3VirtualandAugmentedRealityApplicationsinMedicalandBiomedicalEducation
7.4CurriculumandUserStudies
7.5Challenges
7.6Conclusions
7.7Acknowledgement
References
Chapter8RelatingInformationinEEGstoNeurocognitiveProcesses
8.1TheImportanceofEEGinCognitiveNeuroscience
8.2SignificantFindingsinAttention,Language,andSocialCognition
8.3Summary
References
Chapter9Detection,Processing,andApplicationofNeuralSignals
9.1IntroductiontotheNervousSystem
9.2ElectricalPropertiesofNervesandPropagationofActionPotentials
9.3DetectionandRecordingofNeuralSignals
9.4NeuralSignalProcessingandPatternRecognition
9.5FunctionalElectricalStimulationofNerves
9.6MicroelectronicNeuralSignalRegeneration
9.7Summary
Chapter10CerebralGliomaGradingUsingBayesianNetworkwithFeaturesExtractedfromMulti-modalMRI
10.1Introduction
10.2Methods
10.3Results
10.4Discussion
10.5Conclusions
10.6Acknowledgement
References
Chapter11Histotripsy:Image-guided,Non-invasiveUltrasoundSurgeryforCardiovascularandCancerTherapy
11.1Introduction
11.2Physics
11.3ImageGuidance
11.4CongenitalHeartDiseaseApplication
11.5ThrombolysisApplication
11.6LiverCancerApplication
11.7SummaryandFutureWork
11.8Acknowledgement
References
ColorInset
文摘
版权页:
Structure colors generated due to the reflection ofpenodic nanostructures of dielectricmaterial called photonic crystals,which can prohibit the propagation of electromagneticwaves in a range of frequencies(49l.The color or reflection wavelength is determined bysystem refractive index and the structural period of the dielectric system according to theBragg's law,m.=2ndsin0.Therefore,they are tunable and resistant to photo destroy likephoto quenching or photo bleaching,which make them a kind of ideal color encodingstrategy.The first application as carriers in the encoded DNA and protein detection isexplored by Sailor et al.In their work,porous silicon photonic crystal flakes werefabricated by galvanostatic anodic etch of crystalline silicon wafers.The porosity andthickness of the porous silicon were controlled by the current density,the composition ofthe etchant solution,and the duration of the etch cycle,different colors were generated asreflection peaks in the VISNIR region with a full—width at half—maximum(FWHM)of11 nm by varying a computer—generated pseudo—sinusoidal current waveform.And it ismuch smaller than emission spectra of QDs(20 nm)and fluorescence dyes(more than50 nm).And etching multiple porous layers on a single flake could generate more encodingspectra.For example,a ten—bit binary code is composed of combinations of differentreflection intensities and peakslsi,s21 Therefore,it is possible to generate 41o codes forultrahigh level of multiplexing.But the anisotropic 1D microparticles still need to beproperly oriented to avoid standing or stacking in the decoding process.
| ISBN | 9787030472809 |
|---|---|
| 出版社 | 科学出版社 |
| 作者 | 顾忠泽 |
| 尺寸 | 5 |