Micro-solid oxide fuel cells: Status, challenges, and chances

Anna Evans; Anja Bieberle-Hütter; Henning Galinski; Jennifer L.M. Rupp; Thomas Ryll; Barbara Scherrer; René Tölke; Ludwig J. Gauckler

doi:10.1007/s00706-009-0107-9

Micro-solid oxide fuel cells: Status, challenges, and chances

Anna Evans, Anja Bieberle-Hütter, Henning Galinski, Jennifer L.M. Rupp, Thomas Ryll, Barbara Scherrer, René Tölke, Ludwig J. Gauckler

ETH Zurich

Research output: Contribution to journal › Review article › peer-review

77 Scopus citations

Abstract

Micro-solid oxide fuel cells (micro-SOFC) are predicted to be of high energy density and are potential power sources for portable electronic devices. A micro-SOFC system consists of a fuel cell comprising a positive electrode-electrolyte-negative electrode (i.e. PEN) element, a gas-processing unit, and a thermal system where processing is based on micro-electro- mechanical-systems fabrication techniques. A possible system approach is presented. The critical properties of the thin film materials used in the PEN membrane are discussed, and the unsolved subtasks related to micro-SOFC membrane development are pointed out. Such a micro-SOFC system approach seems feasible and offers a promising alternative to state-of-the-art batteries in portable electronics.

Original language	English
Pages (from-to)	975-983
Number of pages	9
Journal	Monatshefte für Chemie
Volume	140
Issue number	9
DOIs	https://doi.org/10.1007/s00706-009-0107-9
State	Published - Sep 2009
Externally published	Yes

Keywords

Gas processing
MEMS
Micro-solid oxide fuel cell
Microfabrication
Thermal system
Thin film deposition

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10.1007/s00706-009-0107-9

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title = "Micro-solid oxide fuel cells: Status, challenges, and chances",

abstract = "Micro-solid oxide fuel cells (micro-SOFC) are predicted to be of high energy density and are potential power sources for portable electronic devices. A micro-SOFC system consists of a fuel cell comprising a positive electrode-electrolyte-negative electrode (i.e. PEN) element, a gas-processing unit, and a thermal system where processing is based on micro-electro- mechanical-systems fabrication techniques. A possible system approach is presented. The critical properties of the thin film materials used in the PEN membrane are discussed, and the unsolved subtasks related to micro-SOFC membrane development are pointed out. Such a micro-SOFC system approach seems feasible and offers a promising alternative to state-of-the-art batteries in portable electronics.",

keywords = "Gas processing, MEMS, Micro-solid oxide fuel cell, Microfabrication, Thermal system, Thin film deposition",

author = "Anna Evans and Anja Bieberle-H{\"u}tter and Henning Galinski and Rupp, \{Jennifer L.M.\} and Thomas Ryll and Barbara Scherrer and Ren{\'e} T{\"o}lke and Gauckler, \{Ludwig J.\}",

note = "Funding Information: Financial support from the following Swiss institutions for the ONEBAT and NANCER projects is gratefully acknowledged: Commission for Technology and Innovation (CTI), Competence Centre for Energy and Mobility (CCEM), Competence Centre for Materials Science and Technology (CCMX), Bundesamt f{\"u}r Energie (BfE), and Swiss Electric Research (SER).",

year = "2009",

month = sep,

doi = "10.1007/s00706-009-0107-9",

language = "English",

volume = "140",

pages = "975--983",

journal = "Monatshefte f{\"u}r Chemie",

issn = "0026-9247",

publisher = "Springer-Verlag Wien",

number = "9",

}

TY - JOUR

T1 - Micro-solid oxide fuel cells

T2 - Status, challenges, and chances

AU - Evans, Anna

AU - Bieberle-Hütter, Anja

AU - Galinski, Henning

AU - Rupp, Jennifer L.M.

AU - Ryll, Thomas

AU - Scherrer, Barbara

AU - Tölke, René

AU - Gauckler, Ludwig J.

N1 - Funding Information: Financial support from the following Swiss institutions for the ONEBAT and NANCER projects is gratefully acknowledged: Commission for Technology and Innovation (CTI), Competence Centre for Energy and Mobility (CCEM), Competence Centre for Materials Science and Technology (CCMX), Bundesamt für Energie (BfE), and Swiss Electric Research (SER).

PY - 2009/9

Y1 - 2009/9

N2 - Micro-solid oxide fuel cells (micro-SOFC) are predicted to be of high energy density and are potential power sources for portable electronic devices. A micro-SOFC system consists of a fuel cell comprising a positive electrode-electrolyte-negative electrode (i.e. PEN) element, a gas-processing unit, and a thermal system where processing is based on micro-electro- mechanical-systems fabrication techniques. A possible system approach is presented. The critical properties of the thin film materials used in the PEN membrane are discussed, and the unsolved subtasks related to micro-SOFC membrane development are pointed out. Such a micro-SOFC system approach seems feasible and offers a promising alternative to state-of-the-art batteries in portable electronics.

AB - Micro-solid oxide fuel cells (micro-SOFC) are predicted to be of high energy density and are potential power sources for portable electronic devices. A micro-SOFC system consists of a fuel cell comprising a positive electrode-electrolyte-negative electrode (i.e. PEN) element, a gas-processing unit, and a thermal system where processing is based on micro-electro- mechanical-systems fabrication techniques. A possible system approach is presented. The critical properties of the thin film materials used in the PEN membrane are discussed, and the unsolved subtasks related to micro-SOFC membrane development are pointed out. Such a micro-SOFC system approach seems feasible and offers a promising alternative to state-of-the-art batteries in portable electronics.

KW - Gas processing

KW - MEMS

KW - Micro-solid oxide fuel cell

KW - Microfabrication

KW - Thermal system

KW - Thin film deposition

UR - https://www.scopus.com/pages/publications/68949195860

U2 - 10.1007/s00706-009-0107-9

DO - 10.1007/s00706-009-0107-9

M3 - Review article

AN - SCOPUS:68949195860

SN - 0026-9247

VL - 140

SP - 975

EP - 983

JO - Monatshefte für Chemie

JF - Monatshefte für Chemie

IS - 9

ER -

Micro-solid oxide fuel cells: Status, challenges, and chances

Abstract

Keywords

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