PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
33418518-5	2021	The adsorption and photocatalysis experiments results showed that the efficiency of removing As(III) by biochar/SnS2/phosphotungstic acid (biochar/SnS2/PTA) systems was 1.5 times that of biochar/SnS2 systems, and the concentration of total arsenic in the biochar/SnS2/PTA composite system gradually decreased during the photocatalysis process.	as(iii)	93-100	sodium voltage-gated channel alpha subunit 11	Homo sapiens	112-116	
33418518-5	2021	The adsorption and photocatalysis experiments results showed that the efficiency of removing As(III) by biochar/SnS2/phosphotungstic acid (biochar/SnS2/PTA) systems was 1.5 times that of biochar/SnS2 systems, and the concentration of total arsenic in the biochar/SnS2/PTA composite system gradually decreased during the photocatalysis process.	as(iii)	93-100	sodium voltage-gated channel alpha subunit 11	Homo sapiens	147-151	
33418518-5	2021	The adsorption and photocatalysis experiments results showed that the efficiency of removing As(III) by biochar/SnS2/phosphotungstic acid (biochar/SnS2/PTA) systems was 1.5 times that of biochar/SnS2 systems, and the concentration of total arsenic in the biochar/SnS2/PTA composite system gradually decreased during the photocatalysis process.	as(iii)	93-100	sodium voltage-gated channel alpha subunit 11	Homo sapiens	147-151	
33418518-5	2021	The adsorption and photocatalysis experiments results showed that the efficiency of removing As(III) by biochar/SnS2/phosphotungstic acid (biochar/SnS2/PTA) systems was 1.5 times that of biochar/SnS2 systems, and the concentration of total arsenic in the biochar/SnS2/PTA composite system gradually decreased during the photocatalysis process.	as(iii)	93-100	sodium voltage-gated channel alpha subunit 11	Homo sapiens	147-151	
32428768-0	2020	Photoredox catalysis of As(III) by constructed CSnS bonds: Using biomass as templates leads to bio-carbon/SnS2 nanosheets capable of the efficient photocatalytic conversion of As(III) and calcium arsenate capture.	as(iii)	24-31	sodium voltage-gated channel alpha subunit 11	Homo sapiens	106-110	
32428768-0	2020	Photoredox catalysis of As(III) by constructed CSnS bonds: Using biomass as templates leads to bio-carbon/SnS2 nanosheets capable of the efficient photocatalytic conversion of As(III) and calcium arsenate capture.	as(iii)	176-183	sodium voltage-gated channel alpha subunit 11	Homo sapiens	106-110	
32428768-1	2020	In this paper, a new interface design strategy for bio-carbon/SnS2 nanosheets equipped with CSnS bonds was proposed by using biomass as a template for the efficient photocatalytic conversion of As(III).	as(iii)	194-201	sodium voltage-gated channel alpha subunit 11	Homo sapiens	62-66	
32428768-3	2020	Therefore, the construction of CSnS bonds could more efficiently promote the photoredox catalysis of As(III) to As(V) compared with pure SnS2, attributing to the polarization and conjugation effects of the CSn bonds.	as(iii)	101-108	sodium voltage-gated channel alpha subunit 11	Homo sapiens	137-141