Publications
Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Surface functionalization of thin-film diamond for highly stable and selective biological interfaces." Proc Natl Acad Sci U S A 108:983-8 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"Modeling Pressure-Driven Transport of Proteins through a Nanochannel." IEEE Trans Nanotechnol 10:75-82 (2011).
"