日期 影响因子
日期:
2020 年 — 2026 年
2020
2021
2022
2023
2024
2025
2026
影响因子:

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

力谱分析表明,细胞外纳米囊泡的膜波动和表面粘附会影响其弹性行为

期刊:Proceedings of the National Academy of Sciences of the United States of America
影响因子:9.1
doi:10.1073/pnas.2414174122
Stridfeldt Fredrik, Pandey Vikash, Kylhammar Hanna, Talebian Gevari Moein, Metem Prattakorn, Agrawal Vipin, Görgens André, Mamand Doste R, Gilbert Jennifer, Palmgren Lukas, Holme Margaret N, Gustafsson Oskar, El Andaloussi Samir, Mitra Dhrubaditya, Dev Apurba
细胞生物学
囊泡
发表日期:2025
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Design and Optimization of a Silicon-Based Electrokinetic Microchip for Sensitive Detection of Small Extracellular Vesicles

用于灵敏检测细胞外小囊泡的硅基电动微芯片的设计和优化

期刊:ACS Sensors
影响因子:8.2
doi:10.1021/acssensors.4c00110
Moein Talebian Gevari, Siddharth Sourabh Sahu, Fredrik Stridfeldt, Petra Hååg, Luigi De Petris, Kristina Viktorsson, Rolf Lewensohn, Alessandro Gori, Marina Cretich, Apurba Dev
囊泡
细胞生物学
其它细胞
FCM
Human
CD9
发表日期:2024
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Design and fabrication of a vigorous "cavitation-on-a-chip" device with a multiple microchannel configuration

设计和制造一种具有多微通道结构的强劲“芯片空化”装置

期刊:Microsystems & Nanoengineering
影响因子:9.9
doi:10.1038/s41378-021-00270-1
Rokhsar Talabazar, Farzad; Jafarpour, Mohammad; Zuvin, Merve; Chen, Hongjian; Gevari, Moein Talebian; Villanueva, Luis Guillermo; Grishenkov, Dmitry; Koşar, Ali; Ghorbani, Morteza
发表日期:2021
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Engineered Lateral Roughness Element Implementation and Working Fluid Alteration to Intensify Hydrodynamic Cavitating Flows on a Chip for Energy Harvesting

通过工程化横向粗糙度元件的实现和工作流体的改变来增强芯片上的流体动力空化流动,从而实现能量收集

期刊:Micromachines
影响因子:3
doi:10.3390/mi11010049
Gevari, Moein Talebian; Shafaghi, Ali Hosseinpour; Villanueva, Luis Guillermo; Ghorbani, Morteza; Koşar, Ali
发表日期:2019
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