LEADER 04797nam  2201177z- 450 
001 9910557389803321
005 20231214133612.0
035   $a(CKB)5400000000042000
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/76356
035   $a(EXLCZ)995400000000042000
100   $a20202201d2021      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aAdvanced Materials and Technologies for Fuel Cells
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021
215   $a1 electronic resource (196 p.)
311   $a3-0365-0538-5 
311   $a3-0365-0539-3 
330   $aFuel cells are expected to play a relevant role in the transition towards a sustainable-energy-driven world. Although this type of electrochemical system was discovered a long time ago, only in recent years has global energy awareness, together with newly developed materials and available technologies, made such key advances in relation to fuel cell potential and its deployment. It is now unquestionable that fuel cells are recognized, alongside their possibility to work in the reverse mode, as the hub of the new energy deal. Now the questions are, why are they not yet ready to be used, despite the strong economic support given from the society? What prevents them from being entered into the hydrogen energy scenario in which renewable sources will provide energy when it is not readily available? How much are researchers involved in this urgent step towards change? This book gives a clear answer, engaging with some of the open issues that explain the delay of fuel cell deployment and, at the same time, it opens a window that shows how wide and attractive the opportunities offered by this technology are. Papers collected here are not only specialist-oriented but also offer a clear landscape to curious readers and show how challenging the road to the future is.
606   $aResearch & information: general$2bicssc
606   $aTechnology: general issues$2bicssc
610   $apolymer electrolyte fuel cell
610   $acyclic current profile
610   $atransient behavior
610   $apressure drop
610   $aOhmic resistance
610   $asolid oxide fuel cells (SOFCs)
610   $aionic conductivity
610   $aRaman spectroscopy
610   $apowder X-ray diffraction
610   $amicrobial fuel cell
610   $alow-cost ceramics
610   $aseparator
610   $amembrane
610   $aporosity
610   $apore size
610   $awater absorption
610   $amercury intrusion
610   $araman spectroscopy
610   $apowder x-ray diffraction
610   $adoped ceria
610   $asolid oxides fuel cells
610   $aSm-doped ceria
610   $ahigh pressure X-ray powder diffraction
610   $adiamond anvil cell
610   $aequation of state
610   $aRietveld refinement
610   $aSOFC
610   $areliability
610   $acontamination
610   $asalt
610   $aoxygen starvation
610   $aconcentration polarization
610   $afuel cell application
610   $amicrofluidic fuel cell
610   $apower supply
610   $asoft drinks
610   $ahydrogen production
610   $aalkaline water electrolysis
610   $atwo-phases flow
610   $aCFD
610   $atwo-phase process
610   $aBSCF
610   $aSOEC
610   $arSOC
610   $aanodic overpotential
610   $aimpedance spectroscopy
610   $asealants
610   $aglass-ceramic
610   $ajoining
610   $aCH4 internal reforming
610   $asolid oxide fuel cell
610   $a2D local control
610   $acell design optimization
610   $aactive site degradation
610   $atape casting process
610   $aopen circuit voltage
610   $aactivation energy
610   $apower density
610   $aIT-SOFC
610   $aPEM fuel cell
610   $auseful water
610   $ahydrogen consumption scenarios
610   $amodified fuel utilization
615  7$aResearch & information: general
615  7$aTechnology: general issues
700   $aViviani$b Massimo$4edt$01311919
702   $aBarbucci$b Antonio$4edt
702   $aCarpanese$b Maria Paola$4edt
702   $aPresto$b Sabrina$4edt
702   $aViviani$b Massimo$4oth
702   $aBarbucci$b Antonio$4oth
702   $aCarpanese$b Maria Paola$4oth
702   $aPresto$b Sabrina$4oth
906   $aBOOK
912   $a9910557389803321
996   $aAdvanced Materials and Technologies for Fuel Cells$93030560
997   $aUNINA