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查看斯高帕斯 (Scopus) 概要
鍾 志昂
教授
機械工程學系
電子郵件
cachung
cc.ncu.edu
tw
網站
https://www.me.ncu.edu.tw/Faculty/faculty-more.php?id=36
h-index
1076
引文
16
h-指數
按照存儲在普爾(Pure)的出版物數量及斯高帕斯(Scopus)引文計算。
1999
2024
每年研究成果
概覽
指紋
網路
研究計畫
(10)
研究成果
(45)
類似的個人檔案
(6)
指紋
查看啟用 Chih-Ang Chung 的研究主題。這些主題標籤來自此人的作品。共同形成了獨特的指紋。
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Keyphrases
Cell Growth
93%
Chondrocytes
77%
Convection
70%
Mush
55%
Cartilage Tissue Engineering
47%
Induced Flow
44%
Directional Solidification
42%
Boyden Chamber
37%
Tissue Engineering Construct
37%
Hydrides
37%
Morphological Instability
37%
Hydrostatic Pressure
37%
Tissue Engineering
35%
Mushy Layer
35%
Type II Collagen
34%
Cell Diffusion
33%
Collagen
33%
Cell Migration
32%
Cell Sedimentation
29%
Urothelial Carcinoma Cell
29%
Metal Hydride Hydrogen Storage
29%
Heat pipe
29%
Mitomycin C
29%
Tissue Scaffolds
29%
Canister
29%
Mullins-Sekerka
29%
Subharmonic Modes
29%
Cone-and-plate
29%
Bioreactor
29%
Cell Scaffold
28%
Linear Stability Analysis
28%
Random Walk
27%
Boyden Chamber Assay
27%
Dehydriding
25%
Precession
25%
Shear Stress
23%
Plume
23%
Binary Alloy
22%
Oxygen Concentration
22%
Heat Transfer Enhancement
22%
Perfusion
22%
Time-periodic
22%
Puddling
22%
Placenta
22%
Multipotent Cells
22%
Instability Mode
21%
Construct Development
20%
Cell Motility
20%
Mathematical Model
20%
Culture Media
20%
Engineering
Tissue Regeneration
100%
Mathematical Model
52%
Hydrogen Storage
51%
Solidification
44%
Instability Mode
42%
Linear Stability Analysis
42%
Binary Solution
37%
Bioreactor
37%
Morphological Instability
37%
Periodic Time
33%
Heat Pipes
29%
Engineered Cartilage
29%
Binary Alloy
29%
Shear Flow
27%
Oxygen Concentration
25%
Induced Velocity
24%
Porous Scaffold
23%
Glucose Concentration
22%
Hydride Tank
22%
Hydrogenation
22%
Thermal Gradient
22%
Longitudinal Mode
21%
Direction Perpendicular
21%
Cartilage Tissue Engineering
19%
Boundary Layer
19%
Computational Fluid Dynamics
19%
Applied Pressure
19%
Parallel Flow
19%
Simulation Result
19%
Thermal Fluid
18%
Conservation of Mass
18%
Growth Kinetics
18%
Hydrogen Gas
17%
Liquid Metal
17%
Cell Number
16%
Engineering Application
15%
Culture Condition
14%
Perfusion Culture
14%
Hydrogen Absorption
14%
Hydrogen Charge
14%
Dissociation Constant
14%
Filter Surface
14%
Nanoparticle
14%
Number Density
14%
Microfluidic Platform
14%
Cell Volume
14%
Casting Process
14%
Layer Model
14%
Nonlinear Analysis
14%
Concentration Ratio
14%