000			01367 a2200373 4500
005			20250518040240.0
264		0	_c20191211
008			201912s 0 0 eng d
022			_a1873-264X
024	7		_a10.1016/j.jpba.2019.04.008 _2doi
040			_aNLM _beng _cNLM
100	1		_aNguyen, D M
245	0	0	_aNovel urchin-like FeCo oxide nanostructures supported carbon spheres as a highly sensitive sensor for hydrazine sensing application. _h[electronic resource]
260			_bJournal of pharmaceutical and biomedical analysis _cAug 2019
300			_a243-252 p. _bdigital
500			_aPublication Type: Journal Article
650	0	4	_aCarbon _xchemistry
650	0	4	_aCarbonates _xchemistry
650	0	4	_aCobalt _xchemistry
650	0	4	_aElectrochemical Techniques _xmethods
650	0	4	_aElectrodes
650	0	4	_aFerric Compounds _xchemistry
650	0	4	_aHydrazines _xchemistry
650	0	4	_aHydroxides _xchemistry
650	0	4	_aLimit of Detection
650	0	4	_aMetal Nanoparticles _xchemistry
650	0	4	_aNanostructures _xchemistry
650	0	4	_aOxidation-Reduction
650	0	4	_aOxides _xchemistry
700	1		_aBach, L G
700	1		_aBui, Q B
773	0		_tJournal of pharmaceutical and biomedical analysis _gvol. 172 _gp. 243-252
856	4	0	_uhttps://doi.org/10.1016/j.jpba.2019.04.008 _zAvailable from publisher's website
999			_c29673626 _d29673626