Search Constraints
« Previous |
1 - 20 of 21
|
Next »
Search Results
Select an image to start the slideshow
Line tension assisted membrane permeation at the transition temperature in mixed phase lipid bilayers
1 of 20
Expanding the Scope of Reactions and Applications of Donor/Acceptor Metallocarbenes
2 of 20
Dynamics of Influenza Virus Hemagglutinin Fusion Peptide Membrane Insertion
3 of 20
Polyoxometalate-based Catalysts for Toxic Compound Decontamination and Solar Energy Conversion
4 of 20
Fluorescence Quenching in single CdSe/CdS Dot-In-Rod Nanostructures using Modified Atomic Force Microscopy tips
5 of 20
A Journey towards the Construction and Operation of a Photoelectron Velocity-Map Imaging Spectrometer
6 of 20
Self-assembly of porousa-helical nanosheets
7 of 20
CO2 Reduction Catalyzed by Mercaptopteridine
8 of 20
Electronic and Photoionization Spectroscopy of Heavy Metal-Containing Diatomic Molecules
9 of 20
Re-Inventing Template-Directed Replication in Dynamic Chemical Networks
10 of 20
The Stabilization of Reactive Copper Complexes Using 1,4,7-Triazacyclononane Derivatives
11 of 20
Studies of the Ices and Chiral Molecules in the Interstellar Medium
12 of 20
Development of DNA-based Fluorescent Molecular Tension Probes to Investigate Integrin Mediated Mechanical Forces
13 of 20
Reaction Dynamics and Vibrational Studies of Atmospheric Species on Potential Energy Surfaces
14 of 20
Understanding Interstellar Chemistry: A Look at Methanol Branching Ratios and the Search for Aminomethanol
15 of 20
Investigating Sustainable Precious Metal Catalysis: Routine Dirhodium Catalyzed Carbene Reactions with High Yield and Enantioselectivity at Low Loadings
16 of 20
Charge Separation in Polyoxometalate-Based Systems for Solar Energy Production
17 of 20
The Catalytic Aerobic Oxidation of Aldehyde and Alcohol Substrates with Redox-Active Ligand-Supported Earth-Abundant Metal Catalysts
18 of 20
Development of Nanoparticle-based Tools to Investigate Cell Mechanotransduction at the Living/Nonliving Interface
19 of 20
Development of Microfluidic Mixing Techniques to study Enzymatic Reactions
20 of 20