Moein Talebian Gevari

Force spectroscopy reveals membrane fluctuations and surface adhesion of extracellular nanovesicles impact their elastic behavior

Stridfeldt, Fredrik; Pandey, Vikash; Kylhammar, Hanna; Talebian Gevari, Moein et al.

Ingår i Proceedings of the National Academy of Sciences of the United States of America, 2025

• DOI för Force spectroscopy reveals membrane fluctuations and surface adhesion of extracellular nanovesicles impact their elastic behavior
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Design and Numerical Simulation of a Standing Surface Acoustic Wave-Based Microdevice for Whole Blood Cell Separation

Hajimoradi, Maryam; Talebian Gevari, Moein; Pullen, Keith Robert; Mojaddam, Mohammad

Ingår i Computation, 2025

• DOI för Design and Numerical Simulation of a Standing Surface Acoustic Wave-Based Microdevice for Whole Blood Cell Separation
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Design and Optimization of a Silicon-Based Electrokinetic Microchip for Sensitive Detection of Small Extracellular Vesicles

Talebian Gevari, Moein; Sahu, Siddharth Sourabh; Stridfeldt, Fredrik; Hååg, Petra et al.

Ingår i ACS Sensors, s. 2935-2945, 2024

• DOI för Design and Optimization of a Silicon-Based Electrokinetic Microchip for Sensitive Detection of Small Extracellular Vesicles
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Design and optimization of a microchip biosensor utilizing streaming current

Talebian Gevari, Moein

2024

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Multi-marker profiling of extracellular vesicles using streaming current and sequential electrostatic labeling

Sahu, Siddharth S.; Talebian Gevari, Moein; Nagy, Abel; Gestin, Maxime et al.

Ingår i Biosensors & bioelectronics, 2023

• DOI för Multi-marker profiling of extracellular vesicles using streaming current and sequential electrostatic labeling
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Force spectroscopy reveals membrane fluctuations and surface adhesion of extracellular nanovesicles impact their elastic behavior

Stridfeldt, Fredrik; Pandey, Vikash; Kylhammar, Hanna; Talebian Gevari, Moein et al.

Ingår i Proceedings of the National Academy of Sciences of the United States of America, 2025

• DOI för Force spectroscopy reveals membrane fluctuations and surface adhesion of extracellular nanovesicles impact their elastic behavior
• Ladda ner fulltext (pdf) av Force spectroscopy reveals membrane fluctuations and surface adhesion of extracellular nanovesicles impact their elastic behavior

Design and Numerical Simulation of a Standing Surface Acoustic Wave-Based Microdevice for Whole Blood Cell Separation

Hajimoradi, Maryam; Talebian Gevari, Moein; Pullen, Keith Robert; Mojaddam, Mohammad

Ingår i Computation, 2025

• DOI för Design and Numerical Simulation of a Standing Surface Acoustic Wave-Based Microdevice for Whole Blood Cell Separation
• Ladda ner fulltext (pdf) av Design and Numerical Simulation of a Standing Surface Acoustic Wave-Based Microdevice for Whole Blood Cell Separation

Design and Optimization of a Silicon-Based Electrokinetic Microchip for Sensitive Detection of Small Extracellular Vesicles

Talebian Gevari, Moein; Sahu, Siddharth Sourabh; Stridfeldt, Fredrik; Hååg, Petra et al.

Ingår i ACS Sensors, s. 2935-2945, 2024

• DOI för Design and Optimization of a Silicon-Based Electrokinetic Microchip for Sensitive Detection of Small Extracellular Vesicles
• Ladda ner fulltext (pdf) av Design and Optimization of a Silicon-Based Electrokinetic Microchip for Sensitive Detection of Small Extracellular Vesicles

Multi-marker profiling of extracellular vesicles using streaming current and sequential electrostatic labeling

Sahu, Siddharth S.; Talebian Gevari, Moein; Nagy, Abel; Gestin, Maxime et al.

Ingår i Biosensors & bioelectronics, 2023

• DOI för Multi-marker profiling of extracellular vesicles using streaming current and sequential electrostatic labeling
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On cavitation inception and cavitating flow patterns in a multi-orifice microfluidic device with a functional surface

Shafaghi, Ali Hosseinpour; Talabazar, Farzad Rokhsar; Zuvin, Merve; Talebian Gevari, Moein et al.

Ingår i Physics of fluids, 2021

• DOI för On cavitation inception and cavitating flow patterns in a multi-orifice microfluidic device with a functional surface

Design and fabrication of a vigorous "cavitation-on-a-chip" device with a multiple microchannel configuration

Rokhsar Talabazar, Farzad; Jafarpour, Mohammad; Zuvin, Merve; Chen, Hongjian et al.

Ingår i MICROSYSTEMS & NANOENGINEERING, 2021

• DOI för Design and fabrication of a vigorous "cavitation-on-a-chip" device with a multiple microchannel configuration
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Local Carpet Bombardment of Immobilized Cancer Cells With Hydrodynamic Cavitation

Talebian Gevari, Moein; Aydemir, Gizem; Gharib, Ghazaleh; Kutlu, Ozlem et al.

Ingår i IEEE Access, s. 14983-14991, 2021

• DOI för Local Carpet Bombardment of Immobilized Cancer Cells With Hydrodynamic Cavitation
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An ecologically friendly process for graphene exfoliation based on the "hydrodynamic cavitation on a chip" concept

Jafarpour, Mohammad; Aghdam, Araz Sheibani; Talebian Gevari, Moein; Kosar, Ali et al.

Ingår i RSC Advances, s. 17965-17975, 2021

• DOI för An ecologically friendly process for graphene exfoliation based on the "hydrodynamic cavitation on a chip" concept
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Design and optimization of a microchip biosensor utilizing streaming current

Talebian Gevari, Moein

2024

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Single stranded DNA detection on chip utilizing streaming current–a novel approach for signal amplification

Talebian Gevari, Moein; Clinton, Jacob; Gestin, Maxime; Siga, Humam et al.

Flow-mediated extracellular vesicles selective capture based on their surface protein expression

Talebian Gevari, Moein; Sahu, Siddharth Sourabh; Pandey, Vikash; Gorgens, Andre et al.

Multi-marker profiling of extracellular vesicles with an electrokinetic sensor via electrostatic labeling

Sahu, Siddharth S.; Talebian Gevari, Moein; Nagy, Abel; Hååg, Petra et al.

Microchip-based electrokinetic biosensor: microfabrication and application in membrane protein profiling of exosomes

Talebian Gevari, Moein; Sahu, Siddharth S.; Mitra, Dhrubaditya; Linnros, Jan et al.