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Keyword [Hybridization Chain Reaction]
Result: 1 - 20 | Page: 1 of 4
1. The Construction And Application Of Nanomaterials Based On DNA Origami
2. New Signal Transduction And Amplification Strategies Of Nucleic Acid Probes
3. DNA Amplification-Based Aptasensor For Heavy Metal Ions Detection In Environment
4. Strand Displacement Reaction-based Molecule Recognition And Signal Amplification And Its Biosensing Application
5. Design Of Novel Aptamer Biosensors For Highly Sensitive Recognization Of DNA, Hg2+ And Pb2+ Based On Enzyme-assistant Target Recycling Strategy
6. Porphyrin Based Highly Efficient Chemiluminescent Immunoassay
7. Development Of Highly Sensitive Electrochemical DNA And Aptamer-Based Biosensors
8. Study On The Novel DNA Signal Amplification Methods Based On Enzyme And Gold Nanoparticle
9. The Construction Of Fluorescence Amplification Strategy Based On Hybridization Chain Reaction And The Research Of Its Application
10. Graphene Surface-anchored Fluorescence Sensor For Sensitive Detection Of Microrna Coupled With Enzyme-free Signal Amplifcation Of Hybridization Chain Reaction
11. Adsorption And Interaction Of Polyelectrolyte(DNA) On Surface&Toehold-Mediated DNA Strand Displacement Reactions
12. Study On Graphene Oxide And DNA Nanostructure For Nudeic Acid Detection
13. Research On Nucleic Acid Probe And Novel Optical Biosensor Method
14. Proximity Inducement Strategy For Chemiluminescence And Imaging Immunoassay Methods
15. Study Of Fluorescent Sensors Based On DNA Hybridization Chain Reaction
16. The Preparation Of Water-Soluble Conjugated Polymers And Their Applications In Biological Sensing
17. Construction Of Electrochemical Aptasensor Based On Exonuclease-assisted Amplification And Its Analytical Applications
18. Design Of Signal Amplification Technology For The Fabrication Of Electrochemical Immunosensor
19. New Strategies Of Biological Sensing For Fluorescence Imaging
20. Construction Of Surface Enhanced Raman Spectroscopy Detection Platform Based On Functional Nanocomposites And Its Application
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