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Abstract

Diatoms are single-celled organisms with rigid parts in relative motion at the micrometre scale and below. These biogenic hydrated silica structures have elaborate shapes, interlocking devices, and, in some cases, hinged structures. The silica shells of the diatoms experience various forces from the environment and also from the cell itself when it grows and divides, and the form of these micromechanical parts has been evolutionarily optimized during the last 150 million years or more, achieving mechanical stability. Linking structures of several diatom species such as Aulacoseira, Corethron, and Ellerbeckia are presented in high-resolution SEM images and their structure and presumed functions are correlated. Currently, the industry for micro- and nanoelectromechanical devices (MEMS and NEMS) puts great effort into investigating tribology on the micro- and nanometre scale. It is suggested that micro- and nanotribologists meet with diatomists to discuss future common research attempts regarding biomimetic ideas and approaches for novel and/or improved MEMS and NEMS with optimized tribological properties.

Keywords

biotribology diatom tribology biogenic hydrated silica structures in relative motion

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References

Round

F. E.

Crawford

R. M.

Mann

D. G.

Diatoms: biology and morphology of the genera, 1990 (Cambridge University Press, Cambridge).

Rothpletz

Ueber die Flysh-Fucoiden und einige andere fossile Algen, sowie ueber liasische, Diatomeen fuehrende Hornschwamme

Zeitschr. Deutsch. Geol. Ges., 1896, 48, 910–914.

Mann

Biomineralization, 2002 (Oxford University Press, Oxford).

Hamm

C. E.

Merkel

Springer

Jurkojc

Maier

Prechtel

Smetacek

Architecture and material properties of diatom shells provide effective mechanical protection

Nature, 2003, 421, 841–843.

Pickett-Heaps

Schmid

A.-M. M.

Edgar

L. A.

The cell biology of diatom valve formation In Progress in phycological research (Eds Round

F. E.

Chapman

D. J.

), 1990, vol. 7, pp. 1–168 (Biopress, Bristol).

Crawford

R. M.

Hinz

The spines of the centric diatom Corethron criophilum: light microscopy of vegetative cell division

Eur. J. Phycol., 1995, 30, 95–105.

Tappan

Loeblich

A. R.

Evolution of the Oceanic plankton

Earth-Sci. Rev., 1973, 9, 207–240.

Crawford

R. M.

Misleading perceptions - two illustrations of impediments to our understanding of behavioural diversity among planktonic diatoms. (Abstract)

Phycologist, 2003, 64, 4.

Higgins

M. J.

Crawford

S. A.

Mulvaney

Wetherbee

The topography of soft, adhesive diatom ‘trails’ as observed by atomic force microscopy

Biofouling, 2000, 16, 133–140.

10.

Evans

L. V.

Hoagland

K. D.

(Eds) Algal biofouling (studies in environmental science), 1987 (Elsevier Publishing Company, Amsterdam).

11.

Gebeshuber

I. C.

Thompson

J. B.

Del Amo

Stachelberger

Kindt

J. H.

In vivo nanoscale atomic force microscopy investigation of diatom adhesion properties

Mater. Sci. Technol., 2002, 18, 763–766.

12.

Gebeshuber

I. C.

Kindt

J. H.

Thompson

J. B.

Del Amo

Stachelberger

Brzezinski

Stucky

G. D.

Morse

D. E.

Hansma

P.K.

Atomic force microscopy study of living diatoms in ambient conditions

J. Microsc., 2003, 212, 292–299.

13.

Haeckel

Art forms in nature, 1974 (Dover Pictorial Archives, Dover Publications, New York).

14.

Thompson

D. A. W.

On growth and form, 1992 (Dover Publications, New York).

15.

Mate

C. M.

Molecular tribology of disk drives

Tribol. Lett., 1998, 4, 119–123.

16.

Davey

M. C.

Crawford

R. M.

Filament formation in the diatom

Melosira granulata. J. Phycol., 1986, 22, 144–150.

17.

Crawford

R. M.

Hinz

Honeywill

Three species of the diatom genus Corethron Castracane: structure, distribution and taxonomy

Diatom Res., 1998, 13, 1–28.

18.

Sims

P. A.

Mann

D. G.

Medlin

L. K.

Evolution of the diatoms: Insights from fossil, biological and molecular data

Phycologia, 2006, 45, 361–402.

19.

Crawford

S. A.

Higgins

M. J.

Mulvaney

Wetherbee

The nanostructure of the diatom frustule as revealed by atomic force and scanning electron microscopy

J. Phycol., 2001, 37, 543–554.

20.

Gebeshuber

I. C.

Stachelberger

Drack

Diatom bionanotribology - biological surfaces in relative motion: Their design, friction, adhesion, lubrication and wear

J. Nanosci. Nanotechnol., 2005, 5 (1), 79–87.

21.

Higgins

M. J.

Crawford

S. A.

Mulvaney

Wetherbee

Characterization of the adhesive mucilages secreted by live diatom cells using atomic force microscopy

Protist, 2002, 153, 25–38.

22.

Higgins

M. J.

Molino

Mulvaney

Wetherbee

The structure and nanomechanical properties of the adhesive mucilage that mediates diatomsubstratum adhesion and motility

J. Phycol., 2003, 39, 1181–1193.

23.

Higgins

M. J.

Sader

J. E.

Mulvaney

Wetherbee

Probing the surface of living diatoms with atomic force microscopy: The nanostructure and nanomechanical properties of the mucilage layer

J. Phycol., 2003, 39, 722–734.

24.

Gebeshuber

I. C.

Stachelberger

Drack

Diatom tribology In Life cycle tribology (Eds Dowson

Priest

Dalmaz

Lubrecht

A. A.

) Tribology and interface engineering series, Series Ed. B. J. Briscoe, 2005, vol. 48, pp. 365–370 (Elsevier, Amsterdam).

25.

Seeman

N. C.

Belcher

A. M.

Emulating biology: Building nanostructures from the bottom up

Proc. Natl. Acad. Sci., 2002, 99, 6451–6455.

26.

Zhang

Fabrication of novel biomaterials through molecular self-assembly

Nat. Biotechnol., 2003, 21 (10), 1171–1178.

27.

Gebeshuber

I. C.

Pauschitz

Franek

Biotribological model systems for emerging nanoscale technologies. Proceedings 2006 IEEE Conference on

Emerging technologies - nanoelectronics, Singapore, 10-13 January 2006, pp. 396–400.

28.

Gordon

Sterrenburg

F. A. S.

Sandhage

(Eds) Special issue on diatom nanotechnology. J. Nanosci. Nanotechnol., 2005, 5 (1), 1–178.

Micromechanics in biogenic hydrated silica: Hinges and interlocking devices in diatoms

Abstract

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