Add to ORKGThis paper analyzes the effect of mixing on nucleation of protein crystals. The mixing of protein and precipitant was controlled by changing the flow rate in a plug-based microfluidic system. The nucleation rate inversely depended on the flow rate, and flow rate could be used to control nucleation. For example, at higher supersaturations, precipitation happened at low flow rates while large crystals grew at high flow rates. Mixing at low flow velocities in a winding channel induces nucleation more effectively than mixing in straight channels. A qualitative scaling argument that relies on a number of assumptions is presented to understand the experimental results. In addition to helping fundamental understanding, this result may be used to c...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
We show that knowledge of the phase behavior of a protein allows one to create a rational screen tha...
Protein crystallization is central to our understanding of molecular structures in biology, vital to...
This paper analyzes the effect of mixing on nucleation of protein crystals. The mixing of protein an...
This work reports a cheap and easy-to-use droplet-based microfluidic platform for the study of prote...
Kinetic studies of biological macromolecules increasingly use microfluidic mixers to initiate and mo...
This paper describes a method of time-controlled seeding to separate the stages of nucleation and gr...
Nucleation is the first step of crystallization and is the step that will give the final properties ...
University of Minnesota Ph.D. dissertation. August 2009. Major; Chemical Engineering. Advisor: Victo...
This paper reviews work on a microfluidic system that relies on chaotic advection to rapidly mix mul...
We demonstrated a microfluidic device for rapidly generating complex mixtures of 32 stock reagents i...
AbstractThis article demonstrates that the rate of mixing can regulate the rate and outcome of both ...
Producing robust and scalable fluid metering in a microfluidic device is a challenging problem. We d...
Microfluidics tools have been developing rapidly over the past decade, as they offer unparalleled ab...
The unprecedented economies of scale and unique mass transport properties of microfluidic devices ma...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
We show that knowledge of the phase behavior of a protein allows one to create a rational screen tha...
Protein crystallization is central to our understanding of molecular structures in biology, vital to...
This paper analyzes the effect of mixing on nucleation of protein crystals. The mixing of protein an...
This work reports a cheap and easy-to-use droplet-based microfluidic platform for the study of prote...
Kinetic studies of biological macromolecules increasingly use microfluidic mixers to initiate and mo...
This paper describes a method of time-controlled seeding to separate the stages of nucleation and gr...
Nucleation is the first step of crystallization and is the step that will give the final properties ...
University of Minnesota Ph.D. dissertation. August 2009. Major; Chemical Engineering. Advisor: Victo...
This paper reviews work on a microfluidic system that relies on chaotic advection to rapidly mix mul...
We demonstrated a microfluidic device for rapidly generating complex mixtures of 32 stock reagents i...
AbstractThis article demonstrates that the rate of mixing can regulate the rate and outcome of both ...
Producing robust and scalable fluid metering in a microfluidic device is a challenging problem. We d...
Microfluidics tools have been developing rapidly over the past decade, as they offer unparalleled ab...
The unprecedented economies of scale and unique mass transport properties of microfluidic devices ma...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
We show that knowledge of the phase behavior of a protein allows one to create a rational screen tha...
Protein crystallization is central to our understanding of molecular structures in biology, vital to...