FIU Discovery

Bio-acceptability of wearable sensors: a mechanistic study towards evaluating ionic leaching induced cellular inflammation.  Scientific Reports.  12.

(Sensor Division Outstanding Achievement Award Address) Towards Biosensor Enabled Smart Dressings for Management of Chronic Wounds: Advances and Perspectives.  ECS Meeting Abstracts.  MA2020-02:3372-3372.

Ashok chakra-structured meta-structure as a perfect sound absorber for broadband low-frequency sound.  Applied Physics Letters.  117.

Additive manufacturing as an emerging technology for fabrication of microelectromechanical systems (MEMS).  Journal of Micromanufacturing.  2:175-197.

Investigation of structure–mechanical property relationship in fused filament fabrication of the polymer composites.  Journal of Micromanufacturing.  2:167-174.

Toxicity assessment of wearable wound sensor constituents on keratinocytes.  Toxicology in Vitro.  58:170-177.

Biosensor for Monitoring Uric Acid in Wound and Its Proximity: A Potential Wound Diagnostic Tool.  Journal of the Electrochemical Society.  166:B830-B836.

Nanocomposite Bienzymatic Sensor for Monitoring Xanthine in Wound Diagnostics.  Journal of the Electrochemical Society.  166:B3295-B3301.

Sound absorption through PDMS-based flexible perforated plate backed by a dual layer cavity.  Journal of the Acoustical Society of America.  144:1847-1847.

Tapered lateral flow immunoassay based point-of-care diagnostic device for ultrasensitive colorimetric detection of dengue NS1.  Biomicrofluidics.  12.

High Throughput Droplet Microfluidic Platform for Single-Cell Lipid Analysis of Human Breast Cancer Cell Lines.  ECS Meeting Abstracts.  MA2018-01:2477-2477.

Double negative acoustic metastructure for attenuation of acoustic emissions.  Applied Physics Letters.  112.

Ultrathin Ashoka Chakra like acoustic metastructure as a sound absorber.  Journal of the Acoustical Society of America.  143:1714-1714.

Facile synthesis of Au@Ag-hemin decorated reduced graphene oxide sheets: a novel peroxidase mimetic for ultrasensitive colorimetric detection of hydrogen peroxide and glucose.  RSC Advances.  7:37568-37577.

Development of a paper-based analytical device for colorimetric detection of uric acid using gold nanoparticles-graphene oxide (AuNPs-GO) conjugates.  Analytical Methods.  8:6965-6973.

A Historical Perspective on Paper Microfluidic Based Point-of-Care Diagnostics.  1-5.

Fluid Transport Mechanisms in Paper-Based Microfluidic Devices.  7-28.

Fabrication of Nanostructures with Bottom-up Approach and Their Utility in Diagnostics, Therapeutics, and Others.  167-198.

Coatings on Surgical Tools and How to Promote Adhesion of Bio‐Friendly Coatings on Their Surfaces.  207-233.

Diagnosis of communicable diseases using papepr microfluidic platforms.  29-57.

The 4 I’s of Innovation.  31-42.

Microfluidics overview.  33-83.

Uric acid levels in chronic wounds are elevated compared with adjacent normal skin.  Journal of American Academy of Dermatology. AB143-AB143.

Towards a Long-Term Multi-Site Electrochemical Wound Monitoring System.  Proceedings of IEEE Sensors.

Multimodal enzymatic sensing for continuous wound monitoring.  ECS Transactions. 419-426.

Positively Charged Silver Nanoparticles as Labels for Paper-Based Colorimetric Detection of Heparin.  IFMBE Proceedings. 235-240.

Bio-acceptability of wearable sensors: A mechanistic study towards evaluating ionic leaching induced cellular inflammation