<p>Thanks to direct observation and manipulation of DNA in micro/nanofluidic devices, we are now able to elucidate the relationship between the polymer microstructure and its rheological properties, as well as to design new singlemolecule platforms for biophysics and biomedicine. This allows exploration of many new mechanisms and phenomena, which were previously unachievable with conventional methods such as bulk rheometry tests. For instance, the field of polymer rheology is at a turning point to relate the complex molecular conformations to the nonlinear viscoelasticity of polymeric fluids (such as coil-stretch transition, shear thinning, and stress overshoot in startup shear). In addition, nanofluidic devices provided a starting point fo...
Previous experiments in polymer rheology have produced monotonic relationships between the imposed s...
Direct measurement techniques are employed to quantify the kinematics of DNA flows in a 2:1 planar a...
Single molecule experiments were performed on DNA, a model polymer, and entangled DNA networks to ex...
Thanks to direct observation and manipulation of DNA in micro/nanofluidic devices, we are now able t...
Fully integrated lab-on-a-chip systems for applications such as DNA sequencing and pathogen detectio...
Polymer dynamics play an important role in a diversity of fields including materials science, physic...
The flow of λ-DNA solutions in a gradual micro-contraction was investigated using direct measurement...
Solutions of flexible polymers like #-DNA can exhibit strikingly different flow patterns compared to...
This thesis aims to bridge the macroscopic properties and microscopic behavior of macromolecules in ...
When stretching and imaging DNA molecules in nanofluidic devices, it is important to know the relati...
The dynamics of individual DNA molecules were analyzed under the nonhomogeneous shear flow in a rect...
Despite the relevance and importance of slip, a fundamental understanding of the underlying molecula...
Direct measurement techniques are employed to quantify the kinematics of DNA flows in micro-contract...
The control over DNA elongation in nanofluidic devices holds great potential for large-scale genomic...
Abstract. Understanding the transport, orientation, and deformation ofbiological macromolecules by ¯...
Previous experiments in polymer rheology have produced monotonic relationships between the imposed s...
Direct measurement techniques are employed to quantify the kinematics of DNA flows in a 2:1 planar a...
Single molecule experiments were performed on DNA, a model polymer, and entangled DNA networks to ex...
Thanks to direct observation and manipulation of DNA in micro/nanofluidic devices, we are now able t...
Fully integrated lab-on-a-chip systems for applications such as DNA sequencing and pathogen detectio...
Polymer dynamics play an important role in a diversity of fields including materials science, physic...
The flow of λ-DNA solutions in a gradual micro-contraction was investigated using direct measurement...
Solutions of flexible polymers like #-DNA can exhibit strikingly different flow patterns compared to...
This thesis aims to bridge the macroscopic properties and microscopic behavior of macromolecules in ...
When stretching and imaging DNA molecules in nanofluidic devices, it is important to know the relati...
The dynamics of individual DNA molecules were analyzed under the nonhomogeneous shear flow in a rect...
Despite the relevance and importance of slip, a fundamental understanding of the underlying molecula...
Direct measurement techniques are employed to quantify the kinematics of DNA flows in micro-contract...
The control over DNA elongation in nanofluidic devices holds great potential for large-scale genomic...
Abstract. Understanding the transport, orientation, and deformation ofbiological macromolecules by ¯...
Previous experiments in polymer rheology have produced monotonic relationships between the imposed s...
Direct measurement techniques are employed to quantify the kinematics of DNA flows in a 2:1 planar a...
Single molecule experiments were performed on DNA, a model polymer, and entangled DNA networks to ex...