PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34396967-4	2022	The reduction was higher at acidic pH due to lower passivation, as evidenced by the increased production of Fe(III) (oxyhydr)oxides over Fe(II)-Fe(III) phases.	ammonium ferrous sulfate	137-143	general transcription factor IIE subunit 1	Homo sapiens	108-115	
34396967-4	2022	The reduction was higher at acidic pH due to lower passivation, as evidenced by the increased production of Fe(III) (oxyhydr)oxides over Fe(II)-Fe(III) phases.	ammonium ferrous sulfate	137-143	general transcription factor IIE subunit 1	Homo sapiens	144-151	
34146879-10	2021	The results from this study are expected to clarify the reactive species and deepen the understanding of MoS2-promoted persulfate activation by Fe(II)/Fe(III).	ammonium ferrous sulfate	144-150	general transcription factor IIE subunit 1	Homo sapiens	151-158	
34146879-1	2021	The activation of persulfate by ferrous iron (Fe(II)) is of great interest to the environmental remediation community, but the reduction of ferric iron (Fe(III)) to Fe(II) is slow and the accumulation of iron sludge resulted from the precipitation of Fe(III) is a great concern.	ammonium ferrous sulfate	46-52	general transcription factor IIE subunit 1	Homo sapiens	251-258	
34146879-1	2021	The activation of persulfate by ferrous iron (Fe(II)) is of great interest to the environmental remediation community, but the reduction of ferric iron (Fe(III)) to Fe(II) is slow and the accumulation of iron sludge resulted from the precipitation of Fe(III) is a great concern.	ammonium ferrous sulfate	165-171	general transcription factor IIE subunit 1	Homo sapiens	153-160	
34641017-4	2021	When Fe(OH)3 was applied in the aeration step and complete oxidation of Fe2+ was obtained after 27 min, while complete Mn2+ oxidation was obtained in 76 min.	ammonium ferrous sulfate	72-76	general transcription factor IIE subunit 1	Homo sapiens	5-12	
34641017-6	2021	According to the results obtained from the aerated membrane system, Fe2+ and Mn2+ removal were extended by Fe(OH)3 via adsorption/surface oxidation.	ammonium ferrous sulfate	68-72	general transcription factor IIE subunit 1	Homo sapiens	107-114	
35202663-6	2022	Furthermore, the enhanced formation of Fe(III) by oxidation of Fe(II) with permanganate promoted the coagulation process.	ammonium ferrous sulfate	63-69	general transcription factor IIE subunit 1	Homo sapiens	39-46	
34335526-2	2021	Microbiological Fe(III) reduction is often limited when biogenic Fe(II) passivates further Fe(III) reduction, although subsurface groundwater flow and the export of biogenic Fe(II) could alleviate this passivation process, and thus accelerate cave formation.	ammonium ferrous sulfate	65-71	general transcription factor IIE subunit 1	Homo sapiens	16-23	
34335526-2	2021	Microbiological Fe(III) reduction is often limited when biogenic Fe(II) passivates further Fe(III) reduction, although subsurface groundwater flow and the export of biogenic Fe(II) could alleviate this passivation process, and thus accelerate cave formation.	ammonium ferrous sulfate	65-71	general transcription factor IIE subunit 1	Homo sapiens	91-98	
34335526-2	2021	Microbiological Fe(III) reduction is often limited when biogenic Fe(II) passivates further Fe(III) reduction, although subsurface groundwater flow and the export of biogenic Fe(II) could alleviate this passivation process, and thus accelerate cave formation.	ammonium ferrous sulfate	174-180	general transcription factor IIE subunit 1	Homo sapiens	16-23	
34335526-8	2021	Our results demonstrate that removing inhibitory Fe(II) via mimicking hydrologic flow of groundwater increases reduction rates and overall Fe-oxide dissolution, which in turn alters the hydrology of the Fe(III)-rich rocks.	ammonium ferrous sulfate	49-55	general transcription factor IIE subunit 1	Homo sapiens	203-210	
35188748-1	2022	Transformation of metastable Fe(III) oxyhydroxides is a prominent process in natural environments and can be significantly accelerated by the coexisting aqueous Fe(II) (Fe(II)aq).	ammonium ferrous sulfate	161-167	general transcription factor IIE subunit 1	Homo sapiens	29-36	
35074351-7	2022	The addition of Fe(II) makes the coagulation process by Fe(VI) produce more Fe(III) and produce more quality of sedimentary flocs and improve the removal efficiency of EfOM.	ammonium ferrous sulfate	16-22	general transcription factor IIE subunit 1	Homo sapiens	56-62	
35188748-4	2022	Here, we compared the coupled evolution of Fe(II) species, solid phases, and Fe(III)labile throughout the Fe(II)-catalyzed transformation of lepidocrocite (Lp) versus ferrihydrite (Fh) at equal Fe(III) mass loadings with 0.2-1.0 mM Fe(II)aq at pH = 7.0.	ammonium ferrous sulfate	106-112	general transcription factor IIE subunit 1	Homo sapiens	194-201	
33220246-4	2021	Results showed that, amorphous Fe(III)-citrate group showed the fastest phenol degradation and Fe2+ release among all the groups, followed by poorly crystalline ferrihydrite.	ammonium ferrous sulfate	95-99	general transcription factor IIE subunit 1	Homo sapiens	31-38	
33495950-4	2021	Correlation analysis (Fe:S (r:0.5-0.9); Mn:S (r:0.2-0.8)) and elevated fluxes (Fe2+, Mn2+, S2-) connoted that these parameters interacted chemically to give black matter.	ammonium ferrous sulfate	79-83	general transcription factor IIE subunit 1	Homo sapiens	22-24