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骨细胞在基于微流控技术重建的体外微环境中的代谢和功能研究
  • 项目名称:骨细胞在基于微流控技术重建的体外微环境中的代谢和功能研究
  • 项目类别:国际(地区)合作与交流项目
  • 批准号:81261120561
  • 项目来源:国家自然科学基金
  • 研究期限:1900-01-01-1900-01-01
  • 项目负责人:王军波
  • 依托单位:中国科学院电子学研究所
  • 批准年度:2012
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期刊论文
A microfluidic system for cell type classification based on cellular size-independent electrical pro
Osteocyte culture in microfluidic devices
A clogging-free microfluidic platform with an incorporated pneumatically driven membrane-based activ
A microfluidic system enabling continuous characterization of specific membrane capacitance and cyto
Vascular smooth muscle cell culture in microfluidic devices
Simultaneous characterization of instantaneous Young’s modulus and specific membrane capacitance of
A tubing-free microfluidic wound healing assay enabling the quantification of vascular smooth muscle
Parameter screening in microfluidics based hydrodynamic single-cell trapping
A constriction channel based microfluidic system enabling continuous characterization of cellular in
Tumor cell characterization and classification based on cellular specific membrane capacitance and c
会议论文
A microfluidic system enabling continuous quantification of specific membrane capacitance and instan
Tumor cell classification based on instantaneous Young’s Modulus using constriction channel based mi
A tubing-free microfluidic wound-healing assay quantifying vascular smooth muscle cell migrtion
A 384-well microfluidic wound-healing assay
Classification of mouse tumor samples based on specific membrane capacitance and cytoplasm conductiv
On-Chip Tubing-Free Culture of Vascular Smooth Muscle Cells
A clogging-free microfluidic platform for size independent single cancer cellular electrical propert
A constriction channel based T-shape microfluidic platform enabling continuous single-cell electrica
On-chip culture of osteocytes
Microfluidic platform enabling tumor cell characterization and classification based on specific memb
Microfluidic studies of vascular smooth muscle cells
Cell type classification based on specific membrane capacitance and cytoplasm conductivity using mic
A microfluidic device capable of continuous quantification of single-cell specific membrane capacita
Microfluidic platform for tumor cell characterization and classification based on specific membrane
Constriction channel based microfluidic systems enabling single-cell instantaneous Young’s Modulus m
Classification of mouse tumor samples based on specific membrane capacitance and cytoplasm conductiv
A tubing-free microfluidic wound-healing assay quantifying vascular smooth muscle cell migration
A microfluidic system enabling continuous characterization of single-cellspecific membrane capacitan
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