Research Highlights
- In-silico Design of Novel Inorganic-Binding Peptides
- Engineered Evolution of Inorganic-Binding Peptides
- Nonequilibrium Synthesis and Assembly of Hybrid Inorganic-Protein Nanostructures Using an Engineered DNA Binding Protein
- Engineering DNA Binding Proteins for Binding Inorganic Particles
- Biological Linkers for Plasmonic Fluorescence Enhancement
- Conformational Control of Designer Protein-Inorganic Adhesion
- Maneuvering the Optical Properties of Silver Nanostructures through Shape-Controlled Synthesis
- Binding Kinetics & Thermodynamics of Genetically Engineered Peptides
- Biomolecular Recognition-Mediated Fabrication of Tunable Quantum Dot Arrays with Surface-Plasmon-Enhanced Fluorescence
- A Genetic Approach for Controlling Binding and Orientation of Proteins on Nanoparticles
- Adsorption, Diffusion, and Self-Assembly of an Engineered Gold Binding Peptide on Au(111) by AFM
- Molecular Biomimetics: Linking Peptides with Inorganic Structures
- Selection and Analysis of Solid-Binding Peptides
- Rapid Synthesis of Small Silver Nanocubes
- Excitation enhancement of CdSe QDs by single metal NPs
- Adsorption of GEPIs by Time-of-Flight Secondary Ion Mass Spectrometry (TOF-SIMS)
- Surface-plasmon-enhanced fluorescence from periodic QD arrays through distance control using biomolecular linkers
- Effect of Molecular Conformations on the Adsorption Behavior of Gold-Binding Peptides
- Quartz Binding Peptides as Molecular Linkers towards Fabricating Multifunctional Micropetterned Substrates
- Chemically Controlled Self-Assembly of Enzyme Nanorings
- Bioenabled Nanophotonics
- Molecular Design of Inorganic-Binding Polypeptides3
- Spatially Selective Assembly of Quantum Dot Light Emitters in an LED via Engineered Peptides