Biomedical Engineering Reference
In-Depth Information
TABLe 13.1
Overview.of.Laser.Direct-Write.Transfers
Fluence or
Energy
Pulse
Width
Technique
Transfer Material
Resolution
Author
MAPLE.DW
Polyethylene.glycol.eukaryotic.
cells
0.1-0.4.mJ/cm
2
20.ns
10.μm
Spargo
MAPLE.DW
Antibovine.serum.albumin;.
polyphenol.oxidase;.
osteosarcoma.cells
0.01-0.5.mJ/cm
2
10.μm
Wu
AFA-LIFT
salmon.sperm.DNA
0.8.J/cm
2
Fernandez
AFA-LIFT
Trichoderma.conidia
35-355.mJ/cm
2
30.ns
Hopp
MAPLE.DW
Ag;.BaTiO
3
;.SrTiO
3
;.Y
3
Fe
5
O
12
;
500-550.mJ/cm
2
20.ns
10.μm
Pique
LIFT
Palladium
5-300.mJ/cm
2
Esrom
LIFT
Bacteriophage.DNA;.bovine.
serum.albumin;.glutathione.
S-transferase
150.mJ/cm
2
500.fs
50.μm
Zergioti
MAPLE.DW
HT-29.cells
258-1482.mJ/cm
2
Lin
MAPLE.DW
B35.cells
0.02-0.08.J/cm
2
Patz
AFA-LIFT
Human.umbilical.vein.
endothelial.cells
Nahmias
LIFT
Chromium;.indium.oxide
50-550.mJ/cm
2
500.fs
1.μm
Zergioti
MAPLE.DW
Hydroxyapatite;.MG.63;.ECM
0.1-0.3.J/cm
2
Doraiswamy
LDW
NIH3T3.ibroblasts
120.fs
80.μm
Kaji
MAPLE.DW
Au;.BaTiO
3
;.Nichrome
1-3.μm
Chrisey
MAPLE.DW
HUVEC;.hMSC
2.0.J/cm
2
Gaebel
AFA-LIFT
Polystyrene.microbeads
0.08-3.5.J/cm
2
30.ns
Palla-Papavlu
LIFT
Cr
50-550.mJ/cm
2
500.fs
Zergioti
1.μm
MAPLE.DW
Yeast.cells
85-1500.mJ/cm
2
12.ns
Lin
BioLP
Bovine.serum.albumin
30.mJ/cm
2
2.5.ns
Barron
BioLP
Osteosarcoma.cells
5.mJ
2.5.ns
Single.cell
Barron
AFA-LIFT
MG63.cells
18.μJ
30.ns
Catros
AFA-LIFT
Immunoglobulin.G
1-8.μJ
10.ns
Duocastella
MAPLE.DW
Lambda.phage.DNA
10.mJ
500.fs
Karaiskou
LIFT
DNA
0.3-3.μJ
10.ns
40.μm
Serra
LIFT
Cu
60-139.mJ
15.ns
40.μm
Bohandy
PD.was.transferred.with.a.LIFT.process..Threshold.energies.and.wavelength.dependence.
for. transfer. were. found.. 30.ns. laser. pulses. at. 308.nm. wavelength. and. a. luence. range. of.
80.mJ/cm
2
-3.5.J/cm
2
.were.used.to.transfer.polystyrene.microbeads.in.an.array..The.ribbon.
was.coated.with.a.dynamic. release. layer. of.triazene.polymer.ilm,. which. was.shown.to.
fully.decay.at.all.luences.that.initiated.transfer.of.the.beads..For.luences.above.0.7.J/cm
2
,.
clear.pixels.of.the.array.were.transferred.free.of.contamination..The.beads.proved.adher-
ent. to. the. Thermanox. cover-slips. used. as. receiving. substrates,. resisting. ultrasonication..
Spectroscopy.data.showed.that.there.were.no.substantial.changes.made.to.the.chemical.
composition.of.the.microbeads.at.all.laser.luences.used.(Palla-Papavlu.et.al..2010)..A.par-
ticular. wavelength. laser. may. be. optimal. for. all. targets.. Indeed,. a. particular. LIFT. setup.
should.be.optimized.for.different.target.materials..However,.for.cell.and.biomaterial.trans-
fer,.selection.of.a.target.matrix.material.independent.of.the.transfer.material.can.allow.for.
tuning.of.the.absorption.properties.
