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Ferric nitrate

Manufactured by Sinopharm
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Sourced in China

Ferric nitrate is a chemical compound with the formula Fe(NO3)3. It is a crystalline solid that is soluble in water and is commonly used in various laboratory applications.

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Lab products found in correlation

Hydrochloric acid (hcl), by Sinopharm (3 mentions) Methanol, by Sinopharm (2 mentions) Ethanol, by Sinopharm (2 mentions) Sodium hydroxide (naoh), by Sinopharm (2 mentions) Cobalt nitrate, by Sinopharm (2 mentions) Ferrous sulfate, by Sinopharm (2 mentions) Methyl orange, by Sinopharm (1 mentions) Ciprofloxacin, by Sinopharm (1 mentions) Methylene blue, by Sinopharm (1 mentions) Kaolin, by Sinopharm (1 mentions) P benzoquinone, by Sinopharm (1 mentions) Rhodamine b, by Sinopharm (1 mentions) Sodium chloride (nacl), by Sinopharm (1 mentions) Sodium carbonate, by Sinopharm (1 mentions) Isopropanol, by Sinopharm (1 mentions) Potassium persulfate, by Sinopharm (1 mentions) Cetyltrimethylammonium bromide, by Sinopharm (1 mentions) Acetonitrile, by Tianjin Kemiou Chemical Reagent (1 mentions) Sulfuric acid, by Beijing Chemical Works (1 mentions) Phosphoric acid, by Beijing Chemical Works (1 mentions)

10 protocols using ferric nitrate

1

Photocatalytic Degradation of Organic Pollutants

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Ferric nitrate (Fe(NO3)3·9H2O), sodium chloride (NaCl), sodium carbonate (Na2CO3) hydrochloric acid (HCl), potassium persulfate (K2O8S2), sodium hydroxide (NaOH), isopropanol (IPA, C3H8O), methanol (MeOH, CH3OH), ethanol (C2H6O), p-benzoquinone (BQ, C6H4O2), kaolin (Al2O3·2SiO2·2H2O), and ciprofloxacin (CIP, C17H19ClFN3O3) of analytical grade, were purchased from Sinopharm Chemical Reagent Co. Ltd. Rhodamine B (RhB, C28H31ClN2O3), methyl orange (MO, C14H14N3NaO3S), and methylene blue (MB, C16H18N3S·Cl) were obtained from the market. In all the experiments, all solutions were prepared with deionized water.
He Q., Xie C., Gan D, & Xiao C. (2019). The efficient degradation of organic pollutants in an aqueous environment under visible light irradiation by persulfate catalytically activated with kaolin-Fe2O3. RSC Advances, 10(1), 43-52.
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2

Synthesis and Adsorption of MCM-41

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These reagents were used to synthesize and modify MCM-41: cetyltrimethyl ammonium bromide (CTAB), sodium silicate (NaSiO3·9H2O) and ferric nitrate (Fe(NO3)3·9H2O) were obtained from Sinopharm Chemical Reagent Co. Ltd. (Shanghai, China). For the adsorption experiments, ciprofloxacin hydrochloride (CPX) was obtained from Macklin Biochemical Co. Ltd. (Shanghai, China). Acetonitrile was chromatography grade and was purchased from Tianjin Kemiou Chemical Reagent Co. Ltd. (Tianjin, China). All the other metals were nitrate salt species and analytical grades. Deionized water was used throughout the study. pH value of the solution was adjusted with 0.1 M hydrochloric acid (HCl) and sodium hydroxide (NaOH).
Wu Y., Tang Y., Li L., Liu P., Li X., Chen W, & Xue Y. (2018). The Correlation of Adsorption Behavior between Ciprofloxacin Hydrochloride and the Active Sites of Fe-doped MCM-41. Frontiers in Chemistry, 6, 17.
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3

Membrane Dispersion Microreactor Synthesis

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Ammonium
phosphate ((NH4)3PO4·3H2O, ≥95%) and ferric nitrate (Fe(NO3)3·9H2O, ≥98.5%) were obtained from Sinopharm
Chemical Reagent Co., Ltd. Nitric acid (HNO3, 65–68%),
sulfuric acid (H2SO4, 95–98%), and phosphoric
acid (H3PO4, 85%) were obtained from Beijing
Chemical Works. All of the chemicals were used as received. Carbon
nanotubes (CNTs, FT9101) were obtained from Cnano Technology Co.,
Ltd.
The membrane dispersion microreactor device mainly comprised
two stainless steel sample plates (50 mm × 50 mm × 18 mm)
and a stainless steel microfiltration membrane. The membrane with
a pore size of 5 μm was used in the microreactor as the dispersion
medium. The active area of the microporous membrane was 12.56 mm2, and the geometric size of the microchannel was 15 mm ×
0.5 mm × 0.5 mm (length × width × height).
Wang Z, & Lu Y. (2019). Amorphous FePO4/Carbon Nanotube Cathode Preparation via in Situ Nanoprecipitation and Coagulation in a Microreactor. ACS Omega, 4(12), 14790-14799.
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4

Synthesis of Lanthanide-based Nanoparticles

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Yttrium(iii) acetate hydrate (99.9%), ytterbium(iii) acetate hydrate (99.9%), erbium(iii) acetate hydrate (99.9%), and gadolinium(iii) acetate hydrate (99.9%) were purchased from Sigma-Aldrich. Sodium hydroxide (NaOH, >98%), ammonium fluoride (NH4F, >99.99%), 1-octadecene (ODE, 90%), and oleic acid (OA, 90%) were purchased from Aladdin®, China. Methanol (reagent grade), ethanol (reagent grade), and cyclohexane (reagent grade), and ferric nitrate (99.9%) were purchased from Sinopharm Chemical Reagent Co., China.
Huang F., Liu C., Zhao Z., Wang L., Zhang J., Ågren H., Widengren J, & Liu H. (2024). Morphology controlled synthesis of Fe3+-doped upconversion nanomaterials. RSC Advances, 14(8), 4990-5000.
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5

Sludge Treatment Using Polymeric Ferric Sulfate

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Polymeric ferric sulfate, ammonium molybdate, silver sulfate, ferric nitrate, cerium nitrate, cobalt nitrate, potassium sodium tartrate, and ascorbic acid were all of analytical grade and were purchased from Sinopharm Chemical Reagent Co., Ltd. (Shanghai, China). Mercury sulphate and potassium antimony tartrate were all of analytical grade and were purchased from Shanghai McLean Biochemical Co., Ltd. (Shanghai, China). The fly ash was taken from a coal chemical enterprise in Jiangsu. Cationic polyacrylamide (CPAM) was purchased from Jiangyin Huadong Water Treatment Co., Ltd. (Wuxi, China). The actual sludge water sample was taken from a sewage treatment plant in Jiangsu, and the original sludge quality is shown in Table 1.
Xia J., Rao T., Ji J., He B., Liu A, & Sun Y. (2022). Enhanced Dewatering of Activated Sludge by Skeleton-Assisted Flocculation Process. International Journal of Environmental Research and Public Health, 19(11), 6540.
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6

Photocatalytic Degradation of Dye

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Ferric nitrate (Fe(NO3)3·9H2O), ferrous sulfate (FeSO4·7H2O), polyvinylpyrrolidone (PVP K30), ethylenediaminetetraacetic acid disodium salt (EDTA), urea, hydrochloric acid (HCl), sodium hydroxide (NaOH), hydrogen peroxide solution (30%), and ammonia solution (30%) were purchased from Sinopharm Chemical Reagent Co., Ltd (Shanghai China). Acid orange 7 (AO7) anhydrous ethanol, tertiary butyl alcohol (TBA), and oxone (PMS, KHSO5·0.5KHSO4·0.5K2SO4) were purchased from Aladdin Industrial Co. Ltd. (Shanghai, China). All the solutions were prepared with deionized water.
Fan J., Zhao Z., Ding Z, & Liu J. (2018). Synthesis of different crystallographic FeOOH catalysts for peroxymonosulfate activation towards organic matter degradation. RSC Advances, 8(13), 7269-7279.
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7

Determination of Sulfamethazine, Sulfamethoxazole, and Sulfadiazine

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Ferrous sulfate, bismuth nitrate, sodium borohydride, anhydrous ethanol, citric acid (CA), sodium citrate (NaCA), glacial acetic acid, methanol, acetonitrile, ferric nitrate, sulfamethazine (SM2), sulfamethoxazole (SMX), and sulfadiazine (SD) were supplied by Sinopharm Chemical Reagents Co., Ltd. (Shanghai, China). The 5-dimethyl-1-pyrroline N-oxide (DMPO) was purchased from Aladdin Industrial Company (Shanghai, China). methanol and acetonitrile were HPLC grade, while other chemical reagents were analytical grade. All aqueous solutions were prepared using ultrapure water.
Su X., Lv H., Gong J, & Zhou M. (2022). Bi/mZVI Combined with Citric Acid and Sodium Citrate to Mineralize Multiple Sulfa Antibiotics: Performance and Mechanism. Antibiotics, 11(1), 51.
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8

Soybean Straw-Derived Functional Materials

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Soybean straw was sourced from farmland in Qi County, Henan province, P. R. China. Melamine, ferric nitrate, and magnesia were purchased from Sinopharm Chemical Reagent Co., Ltd. (Shanghai, P. R. China). All experimental reagents were of analytical grade and used without further purification.
Liu Y., Su M., Li D., Li S., Li X., Zhao J, & Liu F. (2020). Soybean straw biomass-derived Fe–N co-doped porous carbon as an efficient electrocatalyst for oxygen reduction in both alkaline and acidic media. RSC Advances, 10(12), 6763-6771.
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9

Fabrication of Superhydrophobic Surfaces

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The chemicals used in the fabrication of superhydrophobic surfaces are as following: silver nitrate(99.8%, Aladdin, China); acetone(99.5%, Sinopharm Chemical Reagent Co. Ltd, China); ethanol(99.7%, Changshu Hong Sheng fine chemical Co. Ltd, China); sulphuric acid(98%, Sinopharm Chemical Reagent Co. Ltd, China); hydrogen peroxide(30%, Shanghai Ling Feng Chemical Reagent Co. Ltd, China);hydrofluoric acid(40%, Sinopharm Chemical Reagent Co. Ltd, China); ferric nitrate(98.5%, Sinopharm Chemical Reagent Co. Ltd, China). Perfluoro-1,1,2,2-tetrahydrooctyltrichlorosilane(97%, Alfa Aesar, US).
The silicon wafer was purchased from the Zhejiang Li Jing Photoelectric Technology Co. Ltd. The wafer is P type and its resistivity is in the range of 0.1 ~ 1 Ω·cm.
Yi N., Huang B., Dong L., Quan X., Hong F., Tao P., Song C., Shang W, & Deng T. (2014). Temperature-Induced Coalescence of Colliding Binary Droplets on Superhydrophobic Surface. Scientific Reports, 4, 4303.
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10

Synthesis of Ordered Mesoporous Fe/Co

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Ferric nitrate (Fe(NO3)3·9H2O), cobalt nitrate (Co(NO3)2·6H2O), butyl alcohol, hydrochloric acid (HCl), sodium hydroxide (NaOH), tetraethylorthosilicate (TEOS), and ethanol for preparation of ordered meso-Fe/Co were purchased from Sinopharm Chemical Reagent Co., Ltd., SCRC, China. H2O2 (30% v/v), ethanol, isopropanol, and tetracycline (TC) hydrochloride were purchased from Aladdin and triblock copolymer Pluronic P123 (Mw = 5800, EO20PO70EO20) from Sigma–Aldrich. The purity of the agents used was no lower than analytical grade, and no further purification work was performed on the agents. Deionized water was used for all experiments.
Li J., Li X., Han J., Meng F., Jiang J., Li J., Xu C, & Li Y. (2019). Mesoporous bimetallic Fe/Co as highly active heterogeneous Fenton catalyst for the degradation of tetracycline hydrochlorides. Scientific Reports, 9, 15820.
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