Stewart, M.

Enhanced Kinetics of Enzymatic Nanosensors

Stewart, M.H.

Sensing voltage change across a lipid bilayer

Stoika, R.

Conjugation of anticancer drugs with novel PEG-containing nanocarrier provides circumvention of drug-resistance mechanisms in vitro and protects of general toxicity in vivo

Enhancement of anticancer action of traditional (doxorubicin and cisplatin) and experimental (landomycin A) drugs by their delivery in vivo with novel C60-fullerene-based nanocarriers possessing innate ROS-modulating activity

Stone, S.

Novel method for topical and transdermal delivery of Nanomaterials

Strahan, G.

Biodiesel Co-product Utilization: Glycerol-derived Films for use in Commercial Applications

Stramel, A.

Zinc Oxide optical and chemical sensors fabricated by Ink Jet printing and drop casting

Strandman, S.

A new at-line quality and process control technology for real-time testing of viscoelastic changes in dairy and food products

Strehmel, V.

Polymerized Ionic Liquid Films in Strong Electric Fields: Ion Transport and Nanopatterning

Strelcov, E.

Polymerized Ionic Liquid Films in Strong Electric Fields: Ion Transport and Nanopatterning

Strelow, C.

Fluorescent-Plasmonic Quantum Dot-Gold based Nanohybrids: Basic Research for Next Generation Materials and Tracking of Biological Events

Strong, Z.

The Safe & Efficient Electrical Transmission for Energy Markets and Grid Technology

Strouse, G.

Uptake Behavior of Glycoconjugated and Micellar-Encapsulated Quantum Dots on HeLa Cervical Cancer Cells

Struzhkin, V.

Toward Engineering Fluorescent nanodiamonds

Stuart, D.

The Development of an Automated Nano Sampling Handling System for Nanometre Protein Crystallography Experiments

The Automation of Protein Crystal Presentation for X Ray Diffraction Experiments using Standing Acoustic Waves in a Microfluidic Chip Environment

The Development of an Automated Nano Sampling Handling System for Nanometre Protein Crystallography Experiments

The Automation of Protein Crystal Presentation for X Ray Diffraction Experiments using Standing Acoustic Waves in a Microfluidic Chip Environment

The development of acoustic levitation for time resolved protein crystallography experiments at XFELS

The Development of an Optofluidic Evanescent Field Sample Trapping and Loading Solution for Time Resolved Protein Crystallography Experiments