Adhesive lift method for patterning arbitrary-shaped thin ion-selective films in micro/nanofluidic device - Lab on a Chip (RSC Publishing)

Micro/nanofluidic platforms with nanoporous films have been utilized as research tools for studying electrokinetic phenomena occurring not only in macro-scale systems such as electro-desalination but also in micro-scale systems such as bio-molecular preconcentrators. However, due to the limitations of fabric

Lipid vesicle-based molecular robots - Lab on a Chip (RSC Publishing) DOI:10.1039/D3LC00860F

Tutorial review: Enrichment and separation of neutral and charged species by ion concentration polarization focusing - ScienceDirect

PDF) Nanofabrication Techniques: Challenges and Future Prospects

Microfluidics-Enabled Soft Manufacture of Materials with Tailorable Wettability

Biomedicines, Free Full-Text

dCas9-mediated Nanoelectrokinetic Direct Detection of Target Gene for Liquid Biopsy

Lipid vesicle-based molecular robots - Lab on a Chip (RSC Publishing) DOI:10.1039/D3LC00860F

Lab-on-chip microscope platform for electro-manipulation of a dense microtubules network

Biomedicines, Free Full-Text

Micromachines, Free Full-Text

Nonlinear restructuring of patterned thin films by residual stress engineering into out-of-plane wavy-shaped electrostatic microactuators for high-performance radio-frequency switches

Multiphase

IJMS, Free Full-Text

Paper based microfluidic devices: a review of fabrication techniques and applications. - Abstract - Europe PMC

Adhesive lift method for patterning arbitrary-shaped thin ion-selective films in micro/nanofluidic device - Lab on a Chip (RSC Publishing)