J Mater Sci
 2023
DOI: 10.1007/s10853-023-08267-z
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Synthesis and enhanced formaldehyde gas-sensing performance of mesoporous SnO2 nanospheres doped with trivalent metal-cations

Fengya Zhou
1
,
Bo Hong2,
Jingcai Xu3
et al.
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Cited by 13 publications
(1 citation statement)
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“…La 3+ doping could refine the crystalline grain, thereby to improve the specific surface area [34]. It's well known that the high specific surface area and the rich mesoporous structures not only provide sufficient passageway for Li + uptake and release during the electrochemical process, but also increase the contact area of active material/electrolyte, thus improve the lithium storage capability [35].…”
Section: J U S T a C C E P T E D 12mentioning
confidence: 99%

Boosting high-rate Li-ion storage properties by La(III) ion doping in spinel (Co 0.2Cr 0.2Fe 0.2Mn 0.2Ni 0.2) 3O 4 high-entropy oxide anode

Chen,
Bao,
Jia
et al. 2024
Journal of Advanced Ceramics
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“…La 3+ doping could refine the crystalline grain, thereby to improve the specific surface area [34]. It's well known that the high specific surface area and the rich mesoporous structures not only provide sufficient passageway for Li + uptake and release during the electrochemical process, but also increase the contact area of active material/electrolyte, thus improve the lithium storage capability [35].…”
Section: J U S T a C C E P T E D 12mentioning
confidence: 99%

Boosting high-rate Li-ion storage properties by La(III) ion doping in spinel (Co 0.2Cr 0.2Fe 0.2Mn 0.2Ni 0.2) 3O 4 high-entropy oxide anode

Chen,
Bao,
Jia
et al. 2024
Journal of Advanced Ceramics
1
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0
0
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Highly-enhanced stability, anti-humidity, selectivity and sensitivity of Pr-doped In2O3 sensors to formaldehyde gas

Kong,
Xu,
Hong
et al. 2024
Advanced Powder Technology
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MIL-68 derived In2O3 microtubes and Co3O4/In2O3 heterostructures for high sensitive formaldehyde gas sensors

Kong,
Wu,
Hong
et al. 2024
Ceramics International
10
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