96)
E.K. Oztekin, D.J. Burton and D.W. Hahn. Detection of explosives
using differential laser-induced perturbation spectroscopy with a
Raman-based probe, Applied
Spectroscopy, in press
(2016). http://asp.sagepub.com/content/early/2016/02/10/0003702816629686.full
|
95)
L. Li, C. Chen, A. Singh, N. Rhamatian, N. AuYeung, K. Randhir, R. Mei,
J.F. Klausner, D.W. Hahn and J. Petrasch. A transient heat
transfer model for high temperature solar thermochemical reactors, Int. J. of Hydrogen Energy,
41:2307-2325 (2016).
|
94)
N.R. Rhodes, A. Barde, K. Randhir, L. Li, D.W. Hahn, R.W. Mei, J.F.
Klausner adn N. AuYeung. Solar thermochemical energy storage
through carbonation cycles of SrCO3?SrO supported on SrZr)3, CHEMSUSCHEM, 8:3793-3798 (2015).
|
93)
N.R. Rhodes, M.M. Bobek, K.M. Allen and D.W. Hahn. Investigation
of long term reactive stability of ceria for use in solar
thermochemical cycles, Energy,
89:924-931 (2015).
|
92)
M.E. Asgill, S. Groh, K. Niemax and D.W. Hahn. The use of multi-element aerosol
particles for determining temporal vairations in temperature and
electron density in laser-induced plasmas in support of quantitative
laser-induced breakdown spectroscopy, Spectrochimica
Acta Part B, 109:1-7
(2015).
|
91)
E.K. Oztekin, S.E. Smith and D.W. Hahn. Differential laser-induced
perturbation Raman spectroscopy: A comparison with Raman spectroscopy
for analysis and classification of amino acids and dipeptides, J. Biomedical Optics, 20:047006
(2015).
|
90)
R.C.
Stehle, M.M. Bobek
and D.W.
Hahn. Iron oxidation kinetics for H2 and CO production via
chemical looping, Int. J.
Hydrogen Energy, 40:1675-1689 (2014).
|
89)
R.
Glaus and
D.W.
Hahn. Fiber-coupled laser-induced breakdown and Raman
spectroscopy for flexible sample characterization with depth profiling
capabilities, Spectrochimica
Acta Part B,
100:116-122 (2014).
|
88)
R.
Glaus and
D.W.
Hahn. Double-pulse laser ablation coupled to laser-induced
breakdown spectroscopy, Spectrochimica
Acta
Part B, 98:48-53
(2013).
|
87)
J.
Pareja,
S. Lopez, D. Jaramillo, D.W.
Hahn and A. Molina. Laser ablation-laser induced breakdown
spectroscopy for the measurement of total elemental concentration in
soils, Applied Optics, 52:2470-2477 (2013).
|
86)
K.
Stepankova, K. Novotny, M.G. Vasinova, V. Kanicky, J. Kaiser and D.W.
Hahn. Laser ablation methods for analysis of urinary
calculi: Comparison study based on calibration pellets, Spectrochimica Acta Part B, 81:43-49 (2013).
|
85)
M.M.
Bobek, R.C. Stehle and D.W.
Hahn. Investigation
of
iron
oxide
morphology in a cyclic redox water splitting process for
hydrogen generation, Materials, 5(10):2003-2014 (2012).
|
84)
B.A
Krick, D.W. Hahn and W.G. Sawyer. Plasmonic diagnostics for
tribology: In Situ observations using surface plasmon resonance in
combination with surface-enhanced raman spectroscopy, Tribology Letters, 49:95-102 (2013).
|
83)
R.T.
Kozikowski, S.E. Smith, J.A. Lee, W.L. Castleman, B.S. Sorg, and D.W.
Hahn. Comparative evaluation of differential laser-induced
perturbation spectroscopy as a technique to discriminate emerging skin
pathology, J. Biomedical Optics, 17:067002 (2012).
|
82)
D.W.
Hahn and N. Omenetto. Laser-induced breakdown
spectroscopy (LIBS), Part II: Review of instrumental and
methodological approaches to material analysis and applications to
different fields, Applied
Spectroscopy,
66:347-419 (2012).
|
81)
P.K.
Diwakar,
K.H.
Loper,
A.M.
Matiaske, D.W. Hahn. Laser-induced breakdown
spectroscopy for analysis of micro and nanoparticles, J. of Analytical Atomic Spectrometry,
27:1110-1119
(2012).
|
80)
D.
Diaz, D.W. Hahn, A. Molina. Evaluation of Laser-induced Breakdown
Spectroscopy
(LIBS) for Evaluation of Total Elemental Concentration in Soils, Applied Spectroscopy, 66:99-106
(2012).
|
79)
K.L.
Gilley, J.C. Nino, Y.W. Riddle, D.W. Hahn, S.S Perry. Heat
treatments modify the tribological properties of nickel boron coatings,
Applied Materials &
Interfaces, 4:3069-3076 (2012).
|
78)
R.C.
Stehle,
M.M.
Bobek,
R.
Hooper, D.W. Hahn. Oxidation Reaction
Kinetics for the Steam-Iron Process in Support of Hydrogen Production, Int. J. Hydrogen Energy,
36:15125-15135 (2011).
|
77)
L.
Li,
R.W.
Mei,
J.F. Klausner, D.W. Hahn. Heat Transfer Between
Colliding Surfaces and Particles, J.
Heat Transfer - Trans. ASME, 134:011301 (2012).
|
76)
K.E.
Supan,
H.A.
Ingley,
R.
Pohle, D.W. Hahn. A Kinetic Model for
Ammonia Adsorption on a Titanium Nitride Surface, IEEE Sensors Journal, 12:843-848
(2012).
|
75) S.E. Smith, L.M. Shanyfelt, K.D.
Buchanan, D.W. Hahn. Differential
laser-induced perturbation
spectroscopy using a deep UV excimer laser, Optics Letters, 36:2116-2118 (2011).
|
74)
B.C.
Windom,
W.G.
Sawyer,
D.W.
Hahn.
A
Raman Spectroscopic Study of MoS2 and MoO3: Applications to
Tribological
Systems, Tribology Letters,
42:301-310
(2011).
|
73)
H.
Lindner,
K.H.
Loper,
D.W.
Hahn,
K.
Niemax. The influence of
laser-particle interactions in
laser induced breakdown spectroscopy and laser ablation inductively
coupled
plasma spectrometry, Spectrochimica
Acta Part B, 66:179-185 (2011).
|
72)
B.T.
Fisher and
D.W. Hahn. Real-time
measurement
of
ArF
excimer
laser
corneal
tissue
ablation
rates using
cross-correlation of laser waveforms, Optics
Express, 19:4231-4241 (2011).
|
71)
M.E.
Asgill, H.Y. Moon, M.N.
Omenetto, D.W. Hahn. Investigation of
polarization effects for nanosecond laser-induced breakdown spectroscopy,
Spectrochimica
Acta Part B,
65:1033-1040 (2010).
|
70)
P.K.
Diwakar, S.
Groh, K.
Niemax, D.W. Hahn. Study of analyte
dissociation and diffusion in
laser-induced plasmas: Implications for laser-induced breakdown
spectroscopy, J. Analytical Atomic Spectroscopy, 25:1921-1930 (2010).
|
69)
D.W.
Hahn and N. Omenetto. Laser-induced breakdown
spectroscopy (LIBS), Part I: Review of basic diagnostics and
plasma-particle interactions: Still-challenging issues within the
analytical plasma community. Applied Spectroscopy,
64:336A-366A (2010).
|
68)
N.
Argibay,
J.H.
Keith,
B.A.
Krick,
D.W.
Hahn,
G.R.
Bourne,
W.G. Sawyer.
High-temperature vapor
phase lubrication using carbonaceous gases. Tribology Letters, 40:3-9 (2010).
|
67)
S.
Groh, P.K. Diwakar, C.C. Garcia, A. Murtazin, D.W. Hahn, K.
Niemax. 100%
efficient sub-nanoliter sample introduction in laser-induced breakdown
spectroscopy and inductively-coupled plasma spectrometry: Implications
for ultralow sample volumes, Analytical
Chemistry, 82:2568-2573 (2010).
|
66)
M.E.
Asgill, M.S. Brown, K. Frische, W.M. Roquemore, D.W. Hahn. Double-pulse and
single-pulse laser-induced breakdown spectroscopy for distinquishing
between gaseous and particulate phase analytes, Applied Optics, 49:C110-119 (2010).
|
65)
B.C.
Windom, D.W. Hahn. Laser-ablation - Laser
Induced Breakdown Spectroscopy (LA-LIBS): A Means for Overcoming
Matrix Effects Leading to Improved Analyte Response, J. Analytical Atomic Spectroscopy, 24:1665-1675 (2009).
|
64)
D. W.
Hahn. Laser-induced
Breakdown
Spectroscopy
for
Analysis
of
Aerosol
Particles:
The
Path
Toward
Quantitative
Analysis, Spectroscopy,
24:26-33
(2009).
|
63)
M.E.
Asgill, D. W. Hahn. Particle Size Limits for
Quantitative Aerosol Analysis Using Laser-Iniduced Breakdown
Spectroscopy: Temporal Considerations, Spectrochimica
Acta
Part
B,
64:1153-1158 (2009).
|
62)
D.
Diaz, D.W. Hahn, A. Molina. Laser-induced Breakdown Spectroscopy
(LIBS) for Detection of Ammonium Nitrate in Soils, SPIE, 7303:73031E (2009).
|
61)
L.A.
Álvarez-Trujillo, A. Ferrero, J. J. Laserna, D. W. Hahn. Alternative
statistical methods for spectral
data processing: Applications to
laser-induced breakdown spectroscopy of gaseous and aerosol systems, Applied
Spectroscopy, 62:1144-1152 (2008).
|
60) P.K. Diwakar, D.W. Hahn. Study of Early
Laser-induced
Plasma Dynamics:
Transient Electron Density Gradients via Thomson Scattering and Stark
Broadening, and the Implications on LIBS Measurements, Spectrochimica Acta Part B,
63:1038-1046 (2008).
|
59) P.S.
Dalyander, D.W. Hahn. Excimer
Laser Photofragmentation/Fragment
Detection for Analysis of the Oxygenated Hydrocarbon
Ethyl-3-Ethyoxypropionate (EEP): Implications for Atmospheric
Monitoring, Applied Spectroscopy, 62:1028-1037 (2008).
|
58)
L.M
Shanyfelt,
P.L.
Dickrell,
H.F.
Edelhauser,
D.W.
Hahn.
Effects
of
Laser Repetition Rate on Corneal Tissue Ablation for 193-nm Excimer
Laser Light, Lasers
in Surgery and Medicine, 40:483-493 (2008).
|
57) P. S.
Dalyander, I.B. Gornushkin, D.W.
Hahn. Numerical
Simulation of
Laser-Induced Breakdown Spectroscopy:
Modeling of Aerosol Analysis with Finite Diffusion and Vaporization
Effects, Spectrochimica Acta
Part B,
63:293-304 (2008).
|
56) K.A.
Kim, K.A. Masiello, D.W. Hahn. Reduction of Soot
Emissions by Iron Pentacarbonyl in
Isooctane
Diffusion Flames, Combustion and
Flame, 154:164-180
(2008).
|
55) P.K. Diwakar, P.B. Jackson, D.W. Hahn. Investigation
of Multi-component Aerosol Particles and the Effect on Quantitative
Laser-induced Breakdown Spectroscopy: Consideration of Localized Matrix
Effects, Spectrochimica Acta
Part B,
62:1466-1474 (2007).
|
54) C.A. Henry, P.K. Diwakar, D.W. Hahn. Investigation
of Helium Addition for Laser-induced Plasma Spectroscopy of Pure Gas
Phase
Systems: Analyte Interactions and Signal Enhancement, Spectrochimica Acta Part B,
62:1390-1398 (2007).
|
53) B.T.
Fisher and D.W. Hahn. Development and
Numerical
Solution of a
Mechanistic Model
for Corneal Tissue Ablation with the 193-nm Argon Fluoride Excimer
Laser,
J.
Optical Society of America B:
Optics, Image Science & Vision, 24:265-277 (2007).
|
52) B.C. Windom, P.K.
Diwakar,
D.W. Hahn. Dual-Pulse
LIBS
for
Analysis
of
Gaseous
and
Aerosol
Systems:
Plasma-Analyte
Interations, Spectrochimica Acta
Part B, 61:788-796 (2006).
|
51) B. Hettinger, V.
Hohreiter, M. Swingle, and D.W. Hahn. Laser-Induced
Breakdown Spectroscopy for Ambient Air Particulate
Monitoring: Correlation of Total and Speciated Aerosol Counts,
Applied Spectroscopy,
60:237-245 (2006).
|
50) V. Hohreiter and D.W.
Hahn. Plasma-Particle
Interactions
in
a
Laser-Induced
Plasma:
Implications
for
Laser-induced
Breakdown
Spectroscopy
,
Analytical Chemistry, 78:1509-1514 (2006).
|
49) K.B. Kim, L.
Shanyfelt, and D.W. Hahn. Analysis of
Dense Medium Light Scattering With Applications to Corneal Tissue:
Experiments and Monte Carlo Simulations, Journal of the Optical
Society of America A: Optics, Image Science & Vision, 23:9-21
(2006).
|
48) V. Hohreiter and D.W.
Hahn. Dual-pulse
LIBS:
Time-resolved
transmission
and
spectral
measurements , Spectrochimica Acta Part
B, 60:968-974 (2005).
|
47) P.B. Dixon and D.W.
Hahn. On the
Feasibility of Detection and
Identification of Individual Bioaerosols Using Laser-Induced Breakdown
Spectroscopy , Analytical Chemistry, 77:631-638 (2005).
|
46) V. Hohreiter and D.W.
Hahn. Calibration
effects
for
laser-induced
breakdown
spectroscopy
of
gaseous
sample
streams:
Analyte
response
of
gaseous phase species vs. solid phase species , Analytical
Chemistry, 77:1118-1124 (2005).
|
45) G.D. Yoder, P.K.
Diwakar, D.W. Hahn. Assessment
of soot
particle vaporization effects during laser-induced incandescence using
time-resolved light scattering , Applied Optics,
44:4211-4219 (2005).
|
44) A. J. Ball, V.
Hohreiter, D. W. Hahn. Hydrogen
Leak
Detection
Using
Laser-Induced
Breakdown
Spectroscopy, Applied Spectroscopy, 59:348-353
(2005).
|
43) P.L. Dickrell, S.B.
Sinnott, D.W. Hahn, N.R. Raravikar, L.S. Schadler, P.M. Ajayan, W.G.
Sawyer. Frictional anisotropy of oriented carbon nanotube
surfaces, Tribology Letters , 18:59-62 (2005).
|
42) B.T. Fisher and
D.W. Hahn. Measurement
of
Small-Signal
Absorption
Coefficient
and
Absorption
Cross-Section
of
Collagen
for
193-nm
Excimer Laser Light and
the Role of Collagen in Tissue Ablation , Applied Optics,
43:5443-5451 (2004).
|
41) V. Hohreiter, A. Ball,
D.W. Hahn. Effects
of
Aerosols
and
Laser
Cavity
Seeding
on
Spectral
and
Temporal , J. Analytical Atomic Spectroscopy,
19:1289-1294 (2004).
|
40) H.M. Solo-Gabriele,
T.G. Townsend, D.W. Hahn, T.M. Moskal, N. Hosein, J. Jambeck, G.
Jacobi. Evaluation of XRF and LIBS technologies for on-line
sorting of CCA-treated wood waste, Waste Management, 24:413-424
(2004).
|
39) K. Iida , C.Y. Wu, and D.W.
Hahn. In situ analysis of the
interaction of manganese vapor and silica microspheres in a
laboratory-scale combustor, Combust. Sci. and Tech.,
176:453-480 (2004).
|
38) V
. Hohreiter, J.E. Carranza, and D.W. Hahn. Temporal analysis of
laser-induced plasma properties as related to laser-induced breakdown
spectroscopy , Spectrochimica Acta Part B, 59:327-333
(2004).
|
37) B.T. Fisher and D.W.
Hahn. Determination of excimer laser ablation rates
of corneal tissue using wax impresssions of ablation craters and white
light interferometry, Ophthalmic Surgery, Lasers & Imaging
, 35:41-51 (2004).
|
36) B.T.
Fisher, K.A. Masiello, M.H. Goldstein and D.W. Hahn. Assessment
of transient changes in corneal hydration using confocal Raman
spectroscopy , Cornea, 22:363-370 (2003).
|
35) J.E.
Carranza, K. Iida and D.W. Hahn. Conditional data
processing
for single-shot spectral analysis by use of laser-induced breakdown
spectroscopy, Applied Optics , 42:6022-6028 (2003).
|
34) J.E.
Carranza, E. Gibb, B.W. Smith, D.W. Hahn, J.D. Winefordner. Comparison of
nonintensified and intensified CCD detectors for
laser-induced
breakdown spectroscopy, Applied Optics , 42:6016-6021
(2003).
|
33) R.A.
Myers, A.M. Karger, D.W. Hahn. Geiger photodiode array for
compact, lightweight laser-induced breakdown spectroscopy
instrumentation, Applied Optics , 42:6072-6077 (2003).
|
32) J.E. Carranza and D.W. Hahn . Assessment of the
upper
particle size limit for quantitative analysis of aerosols using laser
induced breakdown spectroscopy , Analytical
Chemistry ,
74:5450-5454 (2002).
|
31) J.E. Carranza and D.W. Hahn .
Plasma volume
considerations for analysis of gaseous and aerosol samples using laser
induced breakdown spectroscopy , J. Analytical Atomic
Spectrom.,
17:1534-1539 (2002).
|
30) E.A. Mokhbat and D.W. Hahn . Laser-induced
breakdown spectroscopy for the analysis of cobalt-chromium orthopaedic
wear debris particles , Applied Spectroscopy, 56:984-993
(2002).
|
29) T.M. Moskal and D.W. Hahn . On-line
sorting of
wood treated with chromated copper arsenate using using laser induced
breakdown spectroscopy , Applied Spectroscopy , 56:1337-1334
(2002).
|
28) J.E. Carranza and D.W. Hahn . Sampling
statistics and considerations for single-shot analysis using laser
induced breakdown spectroscopy , Spectrochimica
Acta
Part B , 57:779-790 (2002).
|
27) B.T. Fisher, H.A.
Johnsen, S.G. Buckley, and D.W. Hahn
. Temporal gating for
the
optimization of laser-induced
breakdown spectroscopy detection and analysis of toxic metals.
Applied Spectroscopy, 55:1312-1319 (2001).
|
26) D.W. Hahn, J.E. Carranza, G.R.
Arsenault, H.A.
Johnsen, and K.R. Hencken. Aerosol
generation system for development
and calibration of laser-induced breakdown spectroscopy instrumentation
, Review of
Scientific Instruments, 72:3706-3713 (2001).
|
25) M.Tran, B.W. Smith,
D.W. Hahn, and J.D. Winefordner. Detection
of gaseous and particulate
fluorides by laser-induced breakdown spectroscopy, Applied
Spectroscopy, 55:1455-1461 (2001).
|
24) J.E. Carranza,
B.T. Fisher,
G.D. Yoder, and D.W. Hahn. On-line
analysis of ambient air particles
using laser-induced breakdown spectroscopy, Spectrochimica
Acta
Part
B, 56:851-864 (2001).
|
23) B.W. Smith,
D.W. Hahn, E.
Gibb, I. Gornushkin, and J.D. Winefordner
.
Laser-induced plasma spectroscopy for the characterization of aerosols
and particulates,
Kona, 19:25-33 (2001) .
|
22) R.L. Gleason and D.W. Hahn. The
effects of oxygen on the detection of mercury using laser- induced
breakdown spectroscopy, Spectrochimica Acta Part B
, 56:419-430 (2001).
|
21) S.G. Buckley, H.A. Johnsen, K.R.
Hencken, and
D.W. Hahn. Implementation
of
laser-induced
breakdown
spectroscopy
as
a
continuous
emissions
monitor
for
toxic
metals, Waste Management
, 20:455-462 (2000).
|
20) D.W. Hahn and M.M. Lunden. Detection
and analysis
of aerosol particles by laser-induced breakdown spectroscopy, Aerosol
Science
and
Technology , 33:30-48 (2000).
|
19) D.W. Hahn. Laser-induced breakdown
spectroscopy
for sizing and elemental analysis of discrete aerosol particles, Applied
Physics
Letters , 72:2960-2962 (1998).
|
18) D.W. Hahn and K.F. McCarty.
Systematic study of
diamond film deposition in an atmospheric- pressure stagnation-flow
flame reactor, Diamond & Related Materials, 7:1320-1327
(1998).
|
17) D.W. Hahn, W.L. Flower, and K.R.
Hencken. Discrete
particle
detection and metal emissions monitoring using
laser-induced breakdown spectroscopy , Applied
Spectroscopy
, 51:1836-1844 (1997).
|
16) D.W. Hahn, M.N. Bui-Pham, and E.
Meeks. Modeling
analysis for the optimization of diamond deposition in a
stagnation-flow flame reactor, Combustion Science & Technology
, 126:175-199 (1997).
|
15) D.W. Hahn, D.L. Wolfarth, and N.L.
Parks. Analysis of
polyethylene wear debris using micro-Raman
spectroscopy: A report on
the presence of beta-carotene, J. Biomedical Materials
Research , 35:31-37 (1997).
|
14) D.L. Wolfarth, D.W. Hahn, G. Bushar,
and N.L.
Parks. Separation and characterization of polyethylene wear debris from
synovial fluid and tissue samples of revised knee replacements, J.
Biomedical Materials Research , 34:57-61 (1997).
|
13) D.W. Hahn, C.F. Edwards, K.F.
McCarty, and R.J.
Kee. Large-area diamond deposition in an atmospheric pressure
stagnation-flow reactor,” Applied Physics Letters, 68:2158-2160
(1996).
|
12) D.W. Hahn, D.L. Wolfarth, and
N.L. Parks. Characterization of submicron polyethylene wear
debris from synovial fluid samples of revised knee replacements using a
light scattering
technique, J. Biomedical Materials Research , 31:355-363
(1996).
|
11) L.S. Matchette, L.W. Grossman, D.W.
Hahn, and C.
Cooney. Induction of lambda prophage by 213 nm laser radiation, Photochemistry
and
Photobiology , 63:281-285 (1996).
|
10) G.H. Pettit, M.N. Ediger, D.W.
Hahn, R.J. Landry, R.P.
Weiblinger, and K.M. Morehouse. Electron paramagnetic resonance
spectroscopy of free radicals in corneal tissue following excimer
laser irradiation, Lasers in Surgery and Medicine, 18:367-372
(1996).
|
9) D.W. Hahn, M.N. Ediger, and G.H.
Pettit. Ablation
plume particle dynamics during excimer laser ablation of polyimide,
J. Applied Physics , 77:2759-2766 (1995).
|
8) D.W. Hahn, M.N. Ediger, and G.H.
Pettit. Dynamics
of ablation plume particles generated during excimer laser corneal
ablation, Lasers in Surgery and Medicine, 16:384-389 (1995).
|
7) D.W. Hahn, G.H. Pettit, and M.N.
Ediger. Optical
properties of polyimide during ArF excimer laser ablation, J.
Applied
Physics , 76:1830-1832 (1994).
|
6) M.N. Ediger, G.H. Pettit, and D.W.
Hahn. Enhanced
ArF laser absorption in a collagen target under ablative conditions,
Lasers in Surgery and Medicine, 15:107-111 (1994).
|
5) G.H. Pettit, M.N. Ediger, D.W. Hahn,
B.E. Brinson,
and R. Sauerbrey. Transmission of polyimide during pulsed ultraviolet
laser irradiation, Applied Physics A, 58:573-579 (1994).
|
4) R.J. Landry, G.H. Pettit, D.W. Hahn,
M.N. Ediger,
G.C. Yang. Preliminary evidence of free radical formation during argon
fluoride excimer laser irradiation of corneal tissue, Lasers and
Light in Ophthalmology , 6:87-90 (1994).
|
3) D.W. Hahn and T.T. Charalampopoulos.
On the
optical properties of submicrometre inhomogeneous flame particulates, J.
Physics
D:
Applied
Physics , 26:1851-1858 (1993).
|
2) T.T. Charalampopoulos, D.W. Hahn, and
H. Chang.
Role of metal additives in light scattering from flame particulates,
Applied Optics , 31:6519-6528 (1992).
|
1) T.T. Charalampopoulos and D.W. Hahn.
Extinction
efficiencies of elongated soot particles, J. Quantitative
Spectroscopy & Radiative Transfer , 42:219-224 (1989).
|