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Cited by 8 publications
(18 citation statements)
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“…The shoulder at 2060 cm –1 is attributed to nonbridging cyanides that are on the surface of the particles. For CoFe 0.66 ( 4 ) (Figure S4), the main band at 2160 cm –1 is characteristic of the Co II Fe III species, and two very weak bands at 2119 and 2092 cm –1 correspond to Co III Fe II and Co II Fe II pairs, respectively . The intrinsic intensities of the bands corresponding to these last two species are around 10 times and 4 times larger, respectively, than that of Co II Fe III .…”
Section: Resultsmentioning
confidence: 96%
See 2 more Smart Citations
“…The shoulder at 2060 cm –1 is attributed to nonbridging cyanides that are on the surface of the particles. For CoFe 0.66 ( 4 ) (Figure S4), the main band at 2160 cm –1 is characteristic of the Co II Fe III species, and two very weak bands at 2119 and 2092 cm –1 correspond to Co III Fe II and Co II Fe II pairs, respectively . The intrinsic intensities of the bands corresponding to these last two species are around 10 times and 4 times larger, respectively, than that of Co II Fe III .…”
Section: Resultsmentioning
confidence: 96%
“…The infrared spectrum of Cs 2 CoFe ( 3 ) in the 2300–2000 cm –1 region (Figure S3), corresponding to the asymmetric elongation of the cyanide group, evidences a vibration band (2092 cm –1 ) characteristic of the Co II Fe II species . The shoulder at 2060 cm –1 is attributed to nonbridging cyanides that are on the surface of the particles.…”
Section: Resultsmentioning
confidence: 97%
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“…Recently, bimetallic Fe­(III)-CN-Fe­(II) PB (FeFe PB) and Fe­(III)-CN-Cu­(II) PBA (CuFe PBA) were exploited as battery materials. , Since CuFe PBA and FeFe PB are composed of redox-active couples, such as Cu­(I/II) and Fe­(II/III), they could be exploited as bioplatforms for sensing BLM via the coordination between Fe­(II) and BLM. Core–shell heterostructured PBAs have been developed and applied as capacitors and batteries, such as CuFe-PBA@NiFe PBA, RbCoFe@KNiCr PBA, and NiCr@CoFe PBA but not for biosensing applications. The synthetic procedure allows the epitaxial growth of successive layers of different PBAs to generate core–shell PBA particles .…”
Section: Introductionmentioning
confidence: 99%
“…Neste sentido, nosso grupo vem propondo a utilização de gradientes iônicos associados à variação de prótons e sais, durante a neutralização de soluções ácidas (Facci et al, 2014;Gomes et al, 2015;Lima et al, 2017; et al, 2017), sensores eletroquímicos (Chen et al, 2017), dispositivos fotovoltaicos (Taghavi et al, 2018), supercapacitores (Palomino et al, 2017), entre outros, especialmente devido a sua estabilidade eletroquímica, a qual permite que o mesmo preserve sua estrutura mesmo após sucessivas reações redox, assim como, possibilita sua imobilização em matrizes automontadas (Gaspar et al, 2007;Olívio et al, 2018). (Sadakane e Steckhan, 1998;Dolbecq et al, 2010;Quintana et al, 2013;Facci et al, 2014;Olívio et al, 2018 (Wessells, Colin D. et al, 2012;Felts et al, 2017).…”
Section: "Blue Energy"unclassified