We have developed an instrument combining localized surface plasmon resonance (LSPR) sensing with electrodeless quartz crystal microbalance with dissipation monitoring (QCM-D). The two techniques can be run simultaneously, on the same sensor surface, and with the same time resolution and sensitivity as for the individual techniques. The electrodeless QCM eliminates the need to fabricate electrodes on the quartz crystal and gives a large flexibility in choosing the surface structure and coating for both QCM-D and LSPR. The performance is demonstrated for liquid phase measurements of lipid bilayer formation and biorecognition events, and for gas phase measurements of hydrogen uptake/release by palladium nanoparticles. Advantages of using the combined equipment for biomolecular adsorption studies include synchronized information about structural transformations and extraction of molecular (dry) mass and degree of hydration of the adlayer, which cannot be obtained with the individual techniques. In hydrogen storage studies the combined equipment, allows for synchronized measurements of uptake/release kinetics and quantification of stored hydrogen amounts in nanoparticles and films at practically interesting hydrogen pressures and temperatures.

1.
J. F.
Alder
and
J. J.
MacCallum
,
Analyst (Cambridge, U.K.)
108
,
1169
(
1983
).
2.
G.
Sauerbrey
,
Z. Phys.
155
,
206
(
1959
).
3.
M.
Rodahl
,
F.
Höök
,
A.
Krozer
,
P.
Brzezinski
, and
B.
Kasemo
,
Rev. Sci. Instrum.
66
,
3924
(
1995
).
4.
M.
Rodahl
and
B.
Kasemo
,
Rev. Sci. Instrum.
67
,
3238
(
1996
).
5.
C.
Kepplinger
,
N.
Ilk
,
U. B.
Sleytr
, and
B.
Schuster
,
Soft Matter
5
,
325
(
2009
).
6.
D.
Thid
,
K.
Holm
,
P. S.
Eriksson
,
J.
Ekeroth
,
B.
Kasemo
, and
J.
Gold
,
J. Biomed. Mater. Res. Part A
84A
,
940
(
2008
).
7.
M. A.
Plunkett
,
Z.
Wang
,
M. W.
Rutland
, and
D.
Johannsmann
,
Langmuir
19
,
6837
(
2003
).
8.
J.
Zhou
,
S.
Moya
,
L.
Ma
,
C.
Gao
, and
J.
Shen
,
Macromol. Biosci.
9
,
326
(
2009
).
9.
M.
Edvardsson
,
S.
Svedhem
,
G.
Wang
,
R.
Richter
,
M.
Rodahl
, and
B.
Kasemo
,
Anal. Chem.
81
,
349
(
2009
).
10.
S.
Löfås
,
M.
Malmqvist
,
I.
Rónnberg
,
E.
Stenberg
,
B.
Liedberg
, and
I.
Lundström
,
Sens. Actuators B
5
,
79
(
2009
).
11.
12.
J. C.
Dijt
,
M. A.
Cohen Stuart
, and
G. J.
Fleer
,
Adv. Colloid Interface Sci.
50
,
79
(
1994
).
13.
C.
Hänel
and
C.
Gauglitz
,
Anal. Bioanal. Chem.
372
,
91
(
2002
).
14.
J.
Vörös
,
J. J.
Ramsden
,
G.
Csucs
,
I.
Szendro
,
S. M.
De Paul
,
M.
Textor
, and
N. D.
Spencer
,
Biomaterials
23
,
3699
(
2002
).
15.
M.
Rodahl
,
F.
Höök
,
C.
Fredriksson
,
C. A.
Keller
,
A.
Krozer
,
P.
Brzezinski
,
M. V.
Voinova
, and
B.
Kasemo
,
Faraday Discuss.
107
,
229
(
1997
).
16.
L. E.
Bailey
,
D.
Kambhampati
,
K. K.
Kanazawa
,
W.
Knoll
, and
C. W.
Frank
,
Langmuir
18
,
479
(
2002
).
17.
A.
Laschitsch
,
B.
Menges
, and
D.
Johannsmann
,
Appl. Phys. Lett.
77
,
2252
(
2000
).
18.
J.
Rishpon
,
A.
Redondo
,
C.
Derouin
, and
S.
Gotttesfeld
,
J. Electroanal. Chem.
294
,
73
(
1990
).
19.
T.
Tjärnhage
and
G.
Puu
,
Colloids Surf., B
8
,
39
(
1996
).
20.
G.
Wang
,
M.
Rodahl
,
M.
Edvardsson
,
S.
Svedhem
,
G.
Ohlsson
,
F.
Höök
, and
B.
Kasemo
,
Rev. Sci. Instrum.
79
,
075107
(
2008
).
21.
A. B.
Dahlin
,
P.
Jönsson
,
M. P.
Jonsson
,
E.
Schmid
,
Y.
Zhou
, and
F.
Höök
,
ACS Nano
2
,
2174
(
2008
).
22.
M. P.
Jonsson
,
P.
Jönsson
, and
F.
Höök
,
Anal. Chem.
80
,
7988
(
2008
).
23.
T.
Nomura
,
F.
Tanaka
,
T.
Yamada
, and
H.
Itoh
,
Anal. Chim. Acta
243
,
273
(
1991
).
24.
O.
Wolff
,
E.
Seydel
, and
D.
Johannsmann
,
Faraday Discuss.
107
,
91
(
1997
).
25.
G. H.
Chan
,
J.
Zhao
,
E. M.
Hicks
,
G. C.
Schatz
, and
R. P.
Van Duyne
,
Nano Lett.
7
,
1947
(
2007
).
26.
C.
Langhammer
,
M.
Schwind
,
B.
Kasemo
, and
I.
Zoric
,
Nano Lett.
8
,
1461
(
2008
).
27.
E. M.
Larsson
,
C.
Langhammer
,
I.
Zoric
, and
B.
Kasemo
,
Science
326
,
1091
(
2009
).
28.
C.
Langhammer
,
I.
Zoric
,
B.
Kasemo
, and
B. M.
Clemens
,
Nano Lett.
7
,
3122
(
2007
).
29.
J. N.
Anker
,
W. P.
Hall
,
O.
Lyandres
,
N. C.
Shah
,
J.
Zhao
, and
R. P.
Van Duyne
,
Nature Mater.
7
,
442
(
2008
).
30.
A. J.
Haes
,
L.
Chang
,
W. L.
Klein
, and
R. P.
Van Duyne
,
J. Am. Chem. Soc.
127
,
2264
(
2005
).
31.
I. H.
El-Sayed
,
X. H.
Huang
, and
M. A.
El-Sayed
,
Nano Lett.
5
,
829
(
2005
).
32.
Y.
Fukai
,
The Metal-Hydrogen System
(
Springer
,
Berlin
,
1993
).
33.
H.
Fredriksson
,
Y.
Alaverdyan
,
A.
Dmitriev
,
C.
Langhammer
,
D. S.
Sutherland
,
M.
Zäch
, and
B.
Kasemo
,
Adv. Mater.
19
,
4297
(
2007
).
34.
P.
Hanarp
,
M.
Kall
, and
D. S.
Sutherland
,
J. Phys. Chem. B
107
,
5768
(
2003
).
35.
R. P.
Richter
,
R.
Bérat
, and
A.
Brisson
,
Langmuir
22
,
3497
(
2006
).
36.
R.
Richter
,
A.
Mukhopadhyay
, and
A.
Brisson
,
Biophys. J.
85
,
3035
(
2003
).
37.
E.
Reimhult
,
C.
Larsson
,
B.
Kasemo
, and
F.
Höök
,
Anal. Chem.
76
,
7211
(
2004
).
38.
C. A.
Keller
and
B.
Kasemo
,
Biophys. J.
75
,
1397
(
1998
).
39.
A. I.
Greenwood
,
S.
Tristam-Nagle
, and
J. F.
Nagle
,
Chem. Phys. Lipids
143
,
1
(
2006
).
40.
A.
Mashaghi
,
M.
Swann
,
J.
Popplewell
,
M.
Textor
, and
E.
Reimhult
,
Anal. Chem.
80
,
3666
(
2008
).
41.
Z.
Salamon
and
G.
Tollin
,
Biophys. J.
80
,
1557
(
2001
).
42.
C. A.
Keller
,
K.
Glasmastar
,
V. P.
Zhdanov
, and
B.
Kasemo
,
Phys. Rev. Lett.
84
,
5443
(
2000
).
43.
E. M.
Larsson
,
J.
Alegret
,
M.
Käll
, and
D. S.
Sutherland
,
Nano Lett.
7
,
1256
(
2007
).
44.
T.
Rindzevicius
,
Y.
Alaverdyan
,
M.
Käll
,
W. A.
Murray
, and
W. L.
Barnes
,
J. Phys. Chem. C
111
,
11806
(
2007
).
45.
C.
Larsson
,
M.
Rodahl
, and
F.
Höök
,
Anal. Chem.
75
,
5080
(
2003
).
46.
K.
Glasmästar
,
C.
Larsson
,
F.
Höök
, and
B.
Kasemo
,
J. Colloid Interface Sci.
246
,
40
(
2002
).
47.
J. A.
De Feijter
,
J.
Benjamins
, and
F. A.
Veer
,
Biopolymers
17
,
1759
(
1978
).
48.
T. C.
Edwards
,
S.
Koppenol
,
W.
Frey
,
W. R.
Schief
, Jr.
,
V.
Vogel
,
R. E.
Stenkamp
, and
P. S.
Stayton
,
Langmuir
14
,
4683
(
1998
).
49.
W. A.
Hendrickson
,
A.
Pahler
,
J. L.
Smith
,
Y.
Satow
,
E. A.
Merritt
, and
R.
Paul Phizackerley
,
Proc. Natl. Acad. Sci. U.S.A.
86
,
2190
(
1989
).
50.
I.
Reviakine
and
A.
Brisson
,
Langmuir
17
,
8293
(
2001
).
51.
S. I.
Orimo
,
Y.
Nakamori
,
J. R.
Eliseo
,
A.
Züttel
, and
C. M.
Jensen
,
Chem. Rev. (Washington, D.C.)
107
,
4111
(
2007
).
52.
L.
Schlapbach
and
A.
Zuttel
,
Nature (London)
414
,
353
(
2001
).
53.
V.
Bèrubè
,
G.
Radtke
,
M.
Dresselhaus
, and
G.
Chen
,
Int. J. Energy Res.
31
,
637
(
2007
).
54.
C.
Langhammer
,
E. M.
Larsson
,
I.
Zorić
, and
B.
Kasemo
, (unpublished).
55.
J.
Isidorsson
,
I. A. M. E.
Giebels
,
H.
Arwin
, and
R.
Griessen
,
Phys. Rev. B
68
,
115112
(
2003
).
56.
A. C.
Switendick
,
J. Less-Common Met.
130
,
249
(
1987
).
57.
T.
Mutschele
and
R.
Kirchheim
,
Scr. Metall.
21
,
1101
(
1987
).
58.
T.
Mutschele
and
R.
Kirchheim
,
Scr. Metall.
21
,
135
(
1987
).
59.
H.
Conrad
,
G.
Ertl
, and
E. E.
Latta
,
Surf. Sci.
41
,
435
(
1974
).
60.
V. P.
Zhdanov
and
B.
Kasemo
,
Chem. Phys. Lett.
460
,
158
(
2008
).
61.
G. A.
Frazier
and
R.
Glosser
,
J. Less Common Met.
74
,
89
(
1980
).
62.
I.
Kulchytskyy
,
M. G.
Kocanda
, and
T.
Xu
,
Appl. Phys. Lett.
91
,
113507
(
2007
).
63.
G. M. L.
Messina
,
C.
Satriano
, and
G.
Marletta
,
Colloids Surf., B
70
,
76
(
2009
).
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