Keyword search (4,164 papers available)

"Packirisamy M" Authored Publications:

Title Authors PubMed ID
1 Proximal sound printing: direct 3D printing of microstructures on polymers Foroughi S; Habibi M; Packirisamy M; 41500993
ENCS
2 Improved electrical performance of PDMS and PEDOT: PSS composites with MWCNT and AgNP particles Shafagh SH; Deen I; Packirisamy M; 41424586
ENCS
3 Robust and Compact Electrostatic Comb Drive Arrays for High-Performance Monolithic Silicon Photonics Fasihanifard M; Packirisamy M; 41156349
ENCS
4 Angled electrode comb drives for enhanced actuator in silicon photonic applications Fasihanifard M; Packirisamy M; 41130948
ENCS
5 Microfluidic Liquid Biopsy Minimally Invasive Cancer Diagnosis by Nano-Plasmonic Label-Free Detection of Extracellular Vesicles: Review Neriya Hegade KP; Bhat RB; Packirisamy M; 40650129
ENCS
6 Alzheimer model chip with microglia BV2 cells Yazdanpanah Moghadam E; Sonenberg N; Packirisamy M; 40623989
ENCS
7 Printing of Cantilevers and Millifluidic Devices Using Ultrasound Waves Foroughi S; Karamzadeh V; Habibi M; Packirisamy M; 40538575
ENCS
8 PEDOT:PSS-MWCNT Nanocomposite Wire for Routing in Energy Harvesting Devices Shafagh SH; Deen I; Mamsapuram Panneerselvam D; Packirisamy M; 40283259
ENCS
9 Microfluidic Wound-Healing Assay for Comparative Study on Fluid Dynamic, Chemical and Mechanical Wounding on Microglia BV2 Migration Yazdanpanah Moghadam E; Sonenberg N; Packirisamy M; 39203655
ENCS
10 Holographic direct sound printing Derayatifar M; Habibi M; Bhat R; Packirisamy M; 39107289
ENCS
11 Microfluidic Wound-Healing Assay for ECM and Microenvironment Properties on Microglia BV2 Cells Migration Yazdanpanah Moghadam E; Sonenberg N; Packirisamy M; 36832056
ENCS
12 Microfluidics in smart packaging of foods Pou KRJ; Raghavan V; Packirisamy M; 36192908
ENCS
13 Gold Nano-Bio-Interaction to Modulate Mechanobiological Responses for Cancer Therapy Applications Sohrabi Kashani A; Larocque K; Piekny A; Packirisamy M; 35839330
BIOLOGY
14 Microfluidic Platforms for the Isolation and Detection of Exosomes: A Brief Review Raju D; Bathini S; Badilescu S; Ghosh A; Packirisamy M; 35630197
ENCS
15 Direct sound printing Habibi M; Foroughi S; Karamzadeh V; Packirisamy M; 35387993
ENCS
16 Arraying of microphotosynthetic power cells for enhanced power output Kuruvinashetti K; Packirisamy M; 35359612
ENCS
17 Simple, Economical Methods for the Culture of Green Algae for Energy Harvesting from Photosynthesis in a Microfluidic Environment Kuruvinashetti K; Rahimi S; Pakkiriswami S; Packirisamy M; 34898042
ENCS
18 Magnetic particle based liquid biopsy chip for isolation of extracellular vesicles and characterization by gene amplification Bathini S; Pakkiriswami S; Ouellette RJ; Ghosh A; Packirisamy M; 34517262
ENCS
19 Cancer-Nano-Interaction: From Cellular Uptake to Mechanobiological Responses Sohrabi Kashani A; Packirisamy M; 34502495
ENCS
20 Optical Fiber Array Sensor for Force Estimation and Localization in TAVI Procedure: Design, Modeling, Analysis and Validation Bandari N; Dargahi J; Packirisamy M; 34450813
ENCS
21 Using intracellular plasmonics to characterize nanomorphology in human cells. Sohrabi Kashani A, Piekny A, Packirisamy M 33365137
BIOLOGY
22 Cancer cells optimize elasticity for efficient migration. Kashani AS; Packirisamy M; 33204453
ENCS
23 Gold Nano-Island Platforms for Localized Surface Plasmon Resonance Sensing: A Short Review. Badilescu S, Raju D, Bathini S, Packirisamy M 33066088
ENCS
24 Toward Task Autonomy in Robotic Cardiac Ablation: Learning-Based Kinematic Control of Soft Tendon-Driven Catheters. Jolaei M, Hooshiar A, Dargahi J, Packirisamy M 32678722
ENCS
25 Lab-On-A-Chip for the Development of Pro-/Anti-Angiogenic Nanomedicines to Treat Brain Diseases. Subramaniyan Parimalam S, Badilescu S, Sonenberg N, Bhat R, Packirisamy M 31817343
ENCS
26 Nano-Bio Interactions of Extracellular Vesicles with Gold Nanoislands for Early Cancer Diagnosis. Bathini S, Raju D, Badilescu S, Kumar A, Ouellette RJ, Ghosh A, Packirisamy M 31549028
ENCS
27 Flow force augmented 3D suspended polymeric microfluidic (SPMF3 ) platform. Marzban M, Dargahi J, Packirisamy M 30025169
ENCS
28 Tuning of Morphology and Stability of Gold Nanostars Through pH Adjustment. Kumar R, Badilescu S, Packirisamy M 30913757
ENCS
29 Efficient Low Shear Flow-based Trapping of Biological Entities. Sohrabi Kashani A, Packirisamy M 30940862
ENCS
30 Acoustofluidic Micromixing Enabled Hybrid Integrated Colorimetric Sensing, for Rapid Point-of-Care Measurement of Salivary Potassium. Surendran V, Chiulli T, Manoharan S, Knisley S, Packirisamy M, Chandrasekaran A 31141923
ENCS
31 The effect of hydrogen nanobubbles on the morphology of gold-gelatin bionanocomposite films and their optical properties. Alsawafta M, Badilescu S, Truong VV, Packirisamy M 22248640
PHYSICS

 

Title:Gold Nano-Island Platforms for Localized Surface Plasmon Resonance Sensing: A Short Review.
Authors:Badilescu SRaju DBathini SPackirisamy M
Link:https://www.ncbi.nlm.nih.gov/pubmed/33066088
DOI:10.3390/molecules25204661
Publication:Molecules (Basel, Switzerland)
Keywords:dewettinggoldnano-islandssensing
PMID:33066088 Category:Molecules Date Added:2020-10-19
Dept Affiliation: ENCS
1 Micro-Nano-Bio Integration Center, Optical-Bio Microsystems Laboratory, Department of Mechanical and Industrial Engineering, Concordia University, Montreal, QC H3G 1M8, Canada.

Description:

Gold Nano-Island Platforms for Localized Surface Plasmon Resonance Sensing: A Short Review.

Molecules. 2020 Oct 13; 25(20):

Authors: Badilescu S, Raju D, Bathini S, Packirisamy M

Abstract

Nano-islands are entities (droplets or other shapes) that are formed by spontaneous dewetting (agglomeration, in the early literature) of thin and very thin metallic (especially gold) films on a substrate, done by post-deposition heating or by using other sources of energy. In addition to thermally generated nano-islands, more recently, nanoparticle films have also been dewetted, in order to form nano-islands. The localized surface plasmon resonance (LSPR) band of gold nano-islands was found to be sensitive to changes in the surrounding environment, making it a suitable platform for sensing and biosensing applications. In this review, we revisit the development of the concept of nano-island(s), the thermodynamics of dewetting of thin metal films, and the effect of the substrate on the morphology and optical properties of nano-islands. A special emphasis is made on nanoparticle films and their applications to biosensing, with ample examples from the authors' work.

PMID: 33066088 [PubMed - as supplied by publisher]




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