Using atomic force microscopic and tribometry techniques, we characterized the cuticle surface of the American cockroach (Periplaneta americana) and studied lubrication properties of the wax developed to protect the cuticle. Experimental results showed that the roach cuticle had the ability to self-clean and that there were dimples on its surface to naturally disperse wax. It was observed by changes in friction that a thicker layer of wax was formed at the ventral abdomen, where dimples were present, than at the dorsal abdomen, which had no major features. The wax was found to have similar lubrication properties as commercial automobile oil, but with the ability to form thin films and repel dust. The dust repelling qualities make it a potential candidate for the lubrication of microelectromechanical system and nanoelectromechanical system devices that require supercleaning surfaces that is cost effective.

1.
Bargel
,
H.
,
Koch
,
K.
,
Cerman
,
Z.
, and
Neinhuis
,
C.
, 2006, “
Structure Function Relationships of the Plant Cuticle and Cuticular Waxes: A Smart Material?
,”
Func. Plant Biology
,
33
(
10
), pp.
893
910
.
2.
Yang
,
C.
,
Tartaglino
,
U.
, and
Persson
,
B.
, 2006, “
Influence of Surface Roughness on Superhydrophobicity
,”
Phys. Rev. Lett.
0031-9007,
97
(
11
), p.
116103
.
3.
Ng
,
D.
,
Huang
,
P. Y.
,
Jeng
,
Y. R.
, and
Liang
,
H.
, 2007, “
Nanoparticle Removal Mechanisms During Post-CMP Cleaning
,”
Electrochem. Solid-State Lett.
1099-0062,
10
(
8
), pp.
H227
H231
.
4.
Ng
,
D.
,
Kundu
,
S.
,
Kulkarni
,
M.
, and
Liang
,
H.
, 2008, “
Role of Surfactant Molecules in Post-CMP Cleaning
,”
J. Electrochem. Soc.
0013-4651,
155
(
2
), pp.
H64
H68
.
5.
Kramer
,
S.
, and
Wigglesworth
,
V. B.
, 1950, “
The Outer Layers of the Cuticle in the Cockroach Periplaneta americana and the Function of the Oenocytes
,”
Q. J. Microsc. Sci.
0370-2952,
91
(
13
), pp.
63
72
.
6.
Ramsay
,
J. A.
, 1935, “
The Evaporation of Water From the Cockroach
,”
J. Exp. Biol.
0022-0949,
12
(
4
), pp.
373
383
.
7.
Wigglesworth
,
V. B.
, 1945, “
Transpiration Through the Cuticle of Insects
,”
J. Exp. Biol.
0022-0949,
21
(
3
), pp.
97
114
.
8.
Beament
,
J. W. L.
, 1959, “
The Waterproofing Mechanism of Arthropods: I. The Effect of Temperature on Cuticle Permeability in Terrestrial Insects and Ticks
,”
J. Exp. Biol.
0022-0949,
36
(
2
), pp.
391
422
.
9.
Beament
,
J. W. L.
, 1945, “
The Cuticular Lipoids of Insects
,”
J. Exp. Biol.
0022-0949,
21
(
3
), pp.
115
131
.
10.
Chibnall
,
A. C.
,
Piper
,
S. H.
,
Pollard
,
A.
,
Williams
,
E. F.
, and
Sahai
,
P. N.
, 1934, “
The Constitution of the Primary Alcohols, Fatty Acids and Paraffins Present in Plant and Insect Waxes
,”
Biochem. J.
0264-6021,
28
(
6
), pp.
2189
2208
.
11.
Beament
,
J. W. L.
, 1955, “
Wax Secretion in the Cockroach
,”
J. Exp. Biol.
0022-0949,
32
(
3
), pp.
514
538
.
12.
Lockey
,
K. H.
, 1960, “
The Thickness of Some Insect Epicuticular Wax Layers
,”
J. Exp. Biol.
0022-0949,
37
(
2
), pp.
316
329
.
13.
Holdgate
,
M. W.
, and
Seal
,
M.
, 1956, “
The Epicuticular Wax Layers of the Pupa of Tenebrio Molitor
,”
J. Exp. Biol.
0022-0949,
33
(
1
), pp.
82
106
.
14.
Dusham
,
E. H.
, 1918, “
The Wax Glands of the Cockroach (Blatta germanica)
,”
J. Morphol.
0362-2525,
31
(
3
), pp.
563
581
.
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