Thirty years of ISFETOLOGY: what happened in the past 30 years and what may happen in the next 30 years
| [0004]
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ISFET responses on a stepwise change in electrolyte concentration at constant pH
| [0020]
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Modeling the short-time response of ISFET sensors
| [0022]
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A large transistor-based sensor array chip for direct extracellular imaging
| [0024]
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The development of scalable sensor arrays using standard CMOS technology
| [0024]
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A very large integrated pH-ISFET sensor array chip compatible with standard CMOS processes
| [0024]
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Fabrication of a two-dimensional pH image sensor using a charge transfer technique
| [0024]
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Fully electronic DNA hybridization detection by a standard CMOS biochip
| [0034]
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Real-time monitoring of DNA polymerase reactions by a micro ISFET pH sensor
| [0034]
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Towards fast solid state DNA sequencing
| [0034]
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Protons and single nucleotide polymorphism detection: A simple use for the Ion Sensitive Field Effect Transistor
| [0034]
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FET-Based Biosensors for The Direct Detection of Organophosphate Neurotoxins
| [0034]
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Angew Chem Int Ed
| [0249]
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J Am Chem Soc
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Organic Letters
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Sensors and Actuators B
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[0251]
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Angew Chem Int Ed
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Chem. Commun.
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Electroanalysis
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Jpn J Appl Phys
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Langmuir
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Protein Sci
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Am Biotechnol Lab
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Colloids and Surfaces
| [0251]
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Sensors and Actuators B
| [0251]
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Bioconjugate Chem
| [0251]
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Practicing the Novolac deep-UV portable conformable masking technique
| [0366]
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Optimization of a photosensitive spin-on dielectric process for copper inductor coil and interconnect protection in RF SoC devices
| [0366]
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Metal Oxides - Chemistry and Applications
| [0376]
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PNAS
| [0442]
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Maniatis
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[0482]
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Nature Methods
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Nature Methods
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Nature Methods
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Nature Methods
| [0446]
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Biochemistry
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Nature
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[0454]
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Nucleic Acids Research
| [0455]
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Nat. Genet.
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Proc. Natl. Acad. Sci.
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Nat. Biotechnol.
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Nat. Biotechnol.
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Journal of Biomedical Optics
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Nat Genet
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Nat Med.
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Nat Med
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Science
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Genome Biology
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Nat Genet
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Science
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Science
| [0475]
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Nature
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Proc. Natl Acad. Sci. USA
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Science
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Genomics
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Science
| [0475]
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Genome Res
| [0475]
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Proteomics
| [0475]
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Biosensors and Bioelectronics
| [0475]
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Biosensors and Bioelectronics
| [0483]
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Gene expression analysis using oligonucleotide arrays produced by maskless photolithography
| [0484]
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Comparison between different strategies of covalent attachment of DNA to glass surfaces to build DNA microarrays
| [0486]
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Quantitative monitoring of gene expression patterns with a complementary DNA microarray
| [0487]
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pH-dependent specific binding and combing of DNA
| [0487]
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Expression profiling using cDNA microarrays
| [0488]
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Covalent attachment of hybridizable oligonucleotides to glass supports
| [0489]
[0489]
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Covalent attachment of oligonucleotides to solid supports
| [0489]
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Direct detection of nucleic acid hybridization on the surface of a charge coupled device
| [0489]
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Direct fluorescence analysis of genetic polymorphisms by hybridization with oligonucleotide arrays on glass supports
| [0489]
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Parallel human genome analysis: microarray-based expression monitoring of 1000 genes
| [0489]
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Design of Oligonucleotide Arrays at Interfaces
| [0490]
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Covalent attachment of synthetic DNA to self-assembled monolayer films
| [0490]
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Immobilization of oligonucleotides onto a glass support via disulfide bonds: A method for preparation of DNA microarrays
| [0490]
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Versatile derivatisation of solid support media for covalent bonding on DNA-microchips
| [0491]
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Light-Generated Oligonucleotide Arrays for Rapid DNA Sequence Analysis
| [0491]
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High-density oligonucleotide arrays
| [0493]
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Electrochemically directed synthesis of oligonucleotides for DNA microarray fabrication
| [0493]
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Digital light-directed synthesis. A microarray platform that permits rapid reaction optimization on a combinatorial basis
| [0493]
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A flexible light-directed DNA chip synthesis gated by deprotection using solution photogenerated acids
| [0493]
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Light-directed, spatially addressable parallel chemical synthesis
| [0493]
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Maskless fabrication of light-directed oligonucleotide microarrays using a digital micromirror array
| [0493]
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Potentiometric Detection of Single Nucleotide Polymorphism by Using a Genetic Field-effect transistor
| [0494]
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Labelfree fully electronic nucleic acid detection system based on a field-effect transistor device
| [0494]
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Real-time monitoring of DNA polymerase reactions by a micro ISFET pH sensor
| [0494]
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Detection of DNA recognition events using multi-well field effect devices
| [0495]
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Fully electronic DNA hybridization detection by a standard CMOS biochip
| [0495]
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Sensing small molecules by nascent RNA: a mechanism to control transcription in bacteria
| [0499]
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Thiamine derivatives bind messenger RNAs directly to regulate bacterial gene expression
| [0499]
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Science
| [0505]
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Nature
| [0505]
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Protein arrays and microarrays
| [0506]
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Measuring proteins on microarrays
| [0506]
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Multiplexed protein profiling on microarrays by rolling-circle amplification
| [0506]
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Enzyme microarrays: On-chip determination of inhibition constants based on affinity-label detection of enzymatic activity
| [0506]
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Enzyme family-specific and activity-based screening of chemical libraries using enzyme microarrays
| [0506]
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Immunoassays with rolling circle amplification: A versatile platform for ultrasensitve antigen detection
| [0506]
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High density peptide microarrays. In situ synthesis and applications
| [0506]
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Modulation of the ISFET response by an immunological reaction
| [0506]
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Possibilities and limitations of direct detection of protein charges by means of an immunological field-effect transistor
| [0506]
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Modification of ISFETs with a monolayer of latex beads for specific detection of proteins
| [0506]
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Recent advances of aptamer sensors
| [0508]
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Enhanced performance of potassium CHEMFETs by optimization of a polysiloxane membrane
| [0514]
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A miniature flow-through cell with a four-function ChemFET integrated circuit for simultaneous measurements of potassium, hydrogen, calcium and sodium ions
| [0514]
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Transduction of selective recognition of heavy metal ions by chemically modified field effect transistors (CHEMFETs)
| [0514]
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Detection of DNA hybridization by a field-effect transistor with covalently attached catcher molecules
| [0515]
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Single- and multi-wall carbon nanotube field-effect transistors
| [0515]
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Battifora Lab Invest
| [0516]
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Battifora and Mehta Lab Invest
| [0516]
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Nat Med
| [0516]
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Sensors and Actuators B 55
| [0517]
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The development of scalable sensor arrays using standard CMOS technology
| [0518]
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A large transistor-based sensor array chip for direct extracellular imaging
| [0518]
|
Imaging spatial distribution of resistivity using applied potential tomography
| [0520]
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Electrical impedance tomography for sensing with integrated microelectrodes on a CMOS microchip
| [0520]
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Analysis of individual biochemical events based on artifical synapses using ultramicroelectrodes: cellular oxidative burst
| [0521]
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Modification of a CMOS microelectrode array for a bioimpedance imaging system
| [0522]
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Simultaneous measurement of cellular respiration and acidification with a single CMOS ISFET
| [0522]
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RGD and YIGSR synthetic peptides facilitate cellular adhesion identical to that of laminin and fibronectin but alter the physiology of neonatal cardiac myocytes
| [0523]
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Cell shape, cytoskeletal tension, and RhoA regulate stem cell lineage commitment
| [0523]
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Electrical signals control wound healing through phosphatidylinositol-3-OH kinase-gamma and PTEN
| [0527]
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Wireless implantable microsystems: high-density electronic interfaces to the nervous system
| [0528]
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A role for fast rhythmic bursting neurons in cortical gamma oscillations in vitro
| [0528]
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Visual perception in a blind subject with a chronic microelectronic retinal prosthesis
| [0529]
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A neural interface for a cortical vision prosthesis
| [0529]
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Channelrhodopsin-2, a directly light-gated cation-selective membrane channel
| [0529]
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Targeting and readout strategies for fast optical neural control in vitro and in vivo
| [0529]
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