Rohit Karnik

Electrostatic control of ions and molecules in nanofluidic transistors.

DNA translocation in inorganic nanotubes.

Effects of biological reactions and modifications on conductance of nanofluidic channels.

Polarity switching and transient responses in single nanotube nanofluidic transistors.

Mixing crowded biological solutions in milliseconds.

Diffusion-limited patterning of molecules in nanofluidic channels.

Rectification of ionic current in a nanofluidic diode.

Nanomechanical control of cell rolling in two dimensions through surface patterning of receptors.

Microfluidic platform for controlled synthesis of polymeric nanoparticles.

Chemical engineering of mesenchymal stem cells to induce a cell rolling response.

Investigating the translocation of lambda-DNA molecules through PDMS nanopores.

Single-step assembly of homogenous lipid-polymeric and lipid-quantum dot nanoparticles enabled by microfluidic rapid mixing.

Engineered mesenchymal stem cells with self-assembled vesicles for systemic cell targeting.

Engineering of self-assembled nanoparticle platform for precisely controlled combination drug therapy.

Examining the lateral displacement of HL60 cells rolling on asymmetric P-selectin patterns.

A semianalytical model to study the effect of cortical tension on cell rolling.

Cell surface engineering of mesenchymal stem cells.

Synthesis of size-tunable polymeric nanoparticles enabled by 3D hydrodynamic flow focusing in single-layer microchannels.

Mimicking the inflammatory cell adhesion cascade by nucleic acid aptamer programmed cell-cell interactions.

Effects of ligands with different water solubilities on self-assembly and properties of targeted nanoparticles.

Cell-surface sensors for real-time probing of cellular environments.

Engineered cell homing.

Enhanced discrimination of DNA molecules in nanofluidic channels through multiple measurements.

Cell sorting by deterministic cell rolling.