Biomedical Engineering Reference
In-Depth Information
(a) Fixture-reduced method for the synthesis of Cu
2
OMWCNTs nanocomposites and its
application as an enzyme-free glucose sensor (
Zhang et al., 2009a,b
).
(b) A novel nonenzymatic ECL sensor for glucose using palladium nanoparticles supported
on functional carbon nanotubes (
Chen et al., 2009
).
(c) A glucose biosensor based on the room-temperature phosphorescence of TiO
2
/SiO
2
nanocomposite (
Li et al., 2009
).
(d) A disposable glucose biosensor using electroless-plated Au/Ni/copper low electrical
resistance electrodes (
Lee et al., 2009
).
(e) A glucose biosensor based on the direct electrochemistry of glucose-oxidase
immobilized on nitrogen-doped carbon nanotubes (
Deng et al., 2009
).
(f) A glucose biosensor with superior long-term stability based on inserted barrel plating
gold electrodes (
Hsu et al., 2009a,b,c
).
(g) A glucose biosensor based on Prussian blue/chitosan hybrid film (
Wang et al., 2009a,b
).
(h) A glucose biosensor using a reusable enzyme-modified ion track membrane reactor
(
Fink et al., 2009
).
(i) An elecrospun poly(vinylidene fluoride)/poly(aminophenylboronic acid) composite
nanofibrous membrane as a novel glucose sensor (
Manesh et al., 2007
).
(j) A glucose sensor for flow injection analysis of serum glucose based on immobilization
of glucose oxidase in titania sol-gel membrane (
Yu et al., 2003
).
(k) A disposable glucose sensor employing engineered glucose dehydrogenases (2000).
(l) A disposable amperometric glucose sensor electrode with enzyme-immobilized Nitro-
cellulose strip (
Cui, 2001
).
(m) A noninvasive continuous monitoring of physiological glucose using a monosaccharide-
sensing contact lens (
Badugu et al., 2004
).
(n) A glucose-sensing electrode preparation based on a glucose-attached polyion complex
membrane containing microperoxidase and ferocene (Yabuki et al., 2000).
(o) A nonenzymatic glucose detector using mesoporosus membrane (
Park et al., 2003
).
(p) A functionalized hydrogel-optical fiber biosensor for determining glucose levels: toward
continuous monitoring of blood glucose
in vivo
(
Tierney et al., 2009a,b
).
(q) A sensitive nonenzymatic glucose sensor in alkaline media with a copper Nanocluster/
multiwall carbon nanotube-modified GCE (
Kang et al., 2007
).
(r) A poly(vinylpyrrolidone)-doped nitric oxide-releasing xerogels as glucose biosensor
membranes (
Schoenfisch et al., 2006
).
(s) Design of molecular wires based on supramolecular structures for application in glucose
biosensors (
Alves et al., 2006
).
Sheng et al. (2008)
have recently developed a novel biosensor using a modified GCE for the
detection of glucose. They have used an enzymatically induced formation of neodymium
hexacyanoferate nanoparticles on a glass oxidase/chitosan-modified GCE. The authors report
