Biomedical Engineering Reference
In-Depth Information
Ferguson J D, Weimer A W, and George S M (2000), 'Atomic layer deposition of
ultrathin and conformal Al
2
O
3
films on BN particles,' Thin Solid Films 371[1-2]
95-104.
Ferguson J D, Weimer A W, and George S M (2002), 'Atomic layer deposition of
boron nitride using sequential exposures of BCl
3
and NH
3
,' Thin Solid Films 413
[1-2] 16-25.
Ferguson J D, Yoder A R, Weimer A W, and George S M (2004), 'TiO
2
atomic layer
deposition on ZrO
2
particles using alternating exposures of TiCl
4
and H
2
O,'
Applied Surface Science 226[4] 393-404.
Ferguson J D, Weimer A W, and George S M (2005), 'Surface chemistry and
infrared absorbance changes during ZnO atomic layer deposition on ZrO
2
and
BaTiO
3
particles,' Journal of Vacuum Science & Technology A 23[1] 118-125.
George S M (2010), 'Atomic layer deposition: an overview,' Chemical Reviews 110[1]
111-131.
George S M, Ott A W, and Klaus J W (1996), 'Surface chemistry for atomic layer
growth,' Journal of Physical Chemistry 100[31] 13121-13131.
Gerhardt L C, Jell G M R, and Boccaccini A R (2007), 'Titanium dioxide (TiO
2
)
nanoparticles filled poly(D,L lactid acid) (PDLLA) matrix composites for bone
tissue engineering,' Journal of Materials Science - Materials in Medicine 18[7]
1287-1298.
Goodman C H L and Pessa M V (1986), 'Atomic layer epitaxy,' Journal of Applied
Physics 60[3] R65-R81.
Hakim L F, Blackson J, George S M, and Weimer A W (2005a), 'Nanocoating
individual silica nanoparticles by atomic layer deposition in a fluidized bed
reactor,' Chemical Vapor Deposition 11[10] 420-425.
Hakim L F, George S M, and Weimer A W (2005b), 'Conformal nanocoating of
zirconia nanoparticles by atomic layer deposition in a fluidized bed reactor,'
Nanotechnology 16[7] S375-S381.
Hakim L F, Portman J L, Casper M D, and Weimer A W (2005c), 'Aggregation
behavior of nanoparticles in fluidized beds,' Powder Technology 160[3] 149-160.
Hakim L F, McCormick J A, Zhan G D, Li P, George S M, and Weimer A W
(2006), 'Surface modification of titania nanoparticles using ultrathin ceramic
films,' Journal of the American Ceramic Society 89[10] 3070-3075.
Hakim L F, Vaughn C L, Dunsheath H J, Carney C S, Liang X H, Li P, and Weimer
A W (2007), 'Synthesis of oxidation-resistant metal nanoparticles via atomic
layer deposition,' Nanotechnology 18[34] 345603.
Hamann T W, Martinson A B E, Elam J W, Pellin M J, and Hupp J T (2008),
'Aerogel templated ZnO dye-sensitized solar cells,' Advanced Materials 20[8]
1560-1564.
Hutmacher D W (2000), 'Scaffolds in tissue engineering bone and cartilage,'
Biomaterials 21[24] 2529-2543.
Jeon W S, Yang S, Lee C S, and Kang S W (2002), 'Atomic layer deposition of Al
2
O
3
thin films using trimethylaluminum and isopropyl alcohol,' Journal of the
Electrochemical Society 149[6] C306-C310.
Jung Y S, Cavanagh A S, Dillon A C, Groner M D, George S M, and Lee S H
(2010a), 'Enhanced stability of LiCoO
2
cathodes in lithium-ion batteries using
surface modification by atomic layer deposition,' Journal of the Electrochemical
Society 157[1] A75-A81.
