Solid-state reaction of ferrocene controlled by co-precursor and reaction atmosphere leading to hematite and cohenite nanomaterials: a reaction kinetic study
S Kundu, M Chakraborty… - The Journal of Physical …, 2023 - ACS Publications
The present article investigates the thermal decomposition of ferrocene in the presence of
oxalic acid dihydrate in oxidative and inert atmospheres. A mixture of ferrocene and oxalic …
oxalic acid dihydrate in oxidative and inert atmospheres. A mixture of ferrocene and oxalic …
Dielectric and electrical characterization of hematite (α-Fe2O3) nanomaterials synthesized by thermal decomposition of iron(III)citrate
Hematite nanomaterials were obtained on thermal decomposition of (i) iron (III) citrate,(ii) 3:
1 mixture of iron (III) citrate and malonic acid, and (iii) 3: 1 mixture of iron (III) citrate and …
1 mixture of iron (III) citrate and malonic acid, and (iii) 3: 1 mixture of iron (III) citrate and …
Insights into a co-precursor driven solid-state thermal reaction of ferrocene carboxaldehyde leading to hematite nanomaterial: a reaction kinetic study
Thermal decomposition of a mixture of ferrocene carboxaldehyde and oxalic acid dihydrate
in O2 atmosphere produced rod-like hematite nanomaterial. The decomposition reaction …
in O2 atmosphere produced rod-like hematite nanomaterial. The decomposition reaction …
Modulation of Solid-state Thermal Reaction of Iron (III) Citrate by a Co-precursor Studied using Thermogravimetry: Evaluation of Kinetic and Thermodynamic …
S Kundu, M Chakraborty… - Current Physical …, 2024 - ingentaconnect.com
Background: Solid state reaction of iron (III) citrate leads to a range of ironbased oxides by
varying the reaction conditions, eg, the presence of co-precursor. The influence of reaction …
varying the reaction conditions, eg, the presence of co-precursor. The influence of reaction …