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Zhen Ma
Syracuse University
,
Department of Biomedical & Chemical Engineering
Syracuse University
,
The BioInspired Institute
https://orcid.org/0000-0001-5228-105X
h-index
1833
Citations
23
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2006
2024
Research activity per year
Overview
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Network
Grants
(7)
Research output
(66)
Press and Media
(24)
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(6)
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Dive into the research topics where Zhen Ma is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Weight
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Engineering
Organoid
100%
Cardiomyocytes
95%
Mechanical Environment
77%
Cardiac Tissue
76%
Engineering
72%
Induced Pluripotent Stem Cell
69%
Glucose Concentration
66%
Blood Glucose
66%
Mesenchymal
66%
Patterning Method
66%
Microenvironments
57%
Free Cell
50%
Mechanical Stress
50%
Mechanical Overload
50%
Cardiac Cell
44%
Stem Cell
40%
Biochemical Cue
35%
Biophysical Cue
35%
Hydrogel
35%
Surface Topography
33%
Flow Velocity
33%
Spatial Resolution
33%
Subpopulation
33%
Artificial Organ
33%
Artificial Implant
33%
Polydimethylsiloxane
33%
Focused Laser Beam
33%
Derived Stem Cell
33%
Mesenchymal Stem Cell
33%
Muscle Model
33%
Individual Cell
33%
Simulation Result
33%
Laser Patterning
33%
Microelectrode Array
33%
Patterning Technique
33%
Blood Glucose Concentration
33%
Cardiac Tissue Engineering
33%
Design Optimization
33%
Machine Learning Technique
33%
Measuring Point
25%
Mechanical Design
16%
Cover Glass
16%
Experimental Result
16%
Biomimetics
16%
Mechanical Load
16%
Reference Point
16%
Strain Hardening
16%
Enhanced Strain
16%
Experimental Model
16%
Signal-to-Noise Ratio
16%
Keyphrases
Cardiomyocytes
71%
Myofibril
66%
Second Harmonic Generation Microscopy
66%
Developmental Toxicity Studies
66%
Two-photon Excitation Fluorescence
66%
Cardiac Organoids
66%
Myosin Filaments
44%
Induced Pluripotent Stem Cells (iPSCs)
41%
Tissue Dynamics
33%
Hydrogel Model
33%
Stereolithography 3D Printing
33%
Contractile Imbalance
33%
Biomaterial Interface
33%
Architected Metamaterials
33%
Cell Engineering
33%
Biomedical Studies
33%
Basement Membrane
33%
Neonatal Rat Cardiomyocytes
33%
Fat Content
33%
Biochip
33%
Chick Embryo
33%
Cardiac Tissue Model
33%
Laser Guidance
33%
Cell Detection
33%
Technology Intelligence
33%
Organoid Technology
33%
Myofibril Assembly
33%
Nascent Myofibril
33%
Human-induced
33%
Cardiotoxicity Screening
33%
Cardiotoxicity
33%
Microfluidic Biochip
33%
Modeling Development
33%
Modelling Diseases
33%
Microsystems
33%
SHG Microscopy
33%
Filament Assembly
33%
3D Mechanical Metamaterial
33%
Costamere
33%
Multi-photon Lithography
33%
Architecting
33%
Metamaterial Structure
33%
3D Buckling
33%
Calcium Flux
33%
Human Cardiomyocytes
33%
Spatial Patterning
33%
Geometric Confinement
33%
Muscle Model
33%
Conductivity Analysis
33%
Human Stem Cell-derived Cardiomyocytes
33%