Fang, Ming (Flora)
Bachelors of Science
Doctor of Philosphy
University of Michigan, 2013
About This Team Member
Flora received a B.S. in chemistry from University of Science and Technology of China in 2008. At USTC, she did research using state of the art Guassian 3 to study quantitative structure-property relationship of tetrathiafulvalene analogs. Flora's research at UM wsa aimed at understanding bone and skin collagen changes occurring in sheep and humans with osteoporosis disease. She is currently working at LifeCell Corporation.
Flora on graduation day with Meagan.
Estrogen and drug treatment alter the microstructure of type I collagen in bone
Alteration of Type I collagen microstructure induced by estrogen depletion can be prevented with drug treatment
Crystallinity and compositional changes in carbonated apatites: Evidence from 31P solid-state NMR, Raman, and AFM analysis.
Nanoscale Structure of type I collagen fibrils: Quantitative measurement of D-spacing
Type I Collagen Self-Assembly: The Roles of Substrate and Concentration
Variation in type I collagen fibril nanomorphology: the significance and origin
Estrogen Depletion Results in Nanoscale Morphology Changes in Dermal Collagen
Type I Collagen D-spacing in Fibril Bundles of Dermis, Tendon, and Bone: Bridging Between Nano- and Micro-level Tissue Hierarchy
A Quantitative Assessment of Nanoparticle-Ligand Distributions: Implications for Targeted Drug and Imaging Delivery in Dendrimer Conjugates
Effect of Mass Transport in the Synthesis of Partially Acetylated Dendrimer: Implications for Functional Ligand-Nanoparticle Interactions
Type 1 Collagen Exists as a Distribution of Nanoscale Morphologies in Teeth, Bones, and Tendons