PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
29634249-5	2018	As a result, a photocurrent approximately 10 times larger than that for a conventional powder-based photoanode is obtained, which indicates the potential of (GaN)1- x(ZnO) x nanowires in the preparation of superior photoanodes for enhanced water splitting.	Water	240-245	gigaxonin	Homo sapiens	158-163	
34399419-2	2021	We investigate the role of the main air constituents nitrogen, oxygen and water on the efficiency of radiative recombination in GaN nanostructures as a function of different surface treatments and at temperatures up to 200 C. Oxygen and water exposures exhibit a complex behavior as they can both act quenching and enhancing on the photoluminescence intensity dependent on the temperature.	Water	74-79	gigaxonin	Homo sapiens	128-131	
34399419-2	2021	We investigate the role of the main air constituents nitrogen, oxygen and water on the efficiency of radiative recombination in GaN nanostructures as a function of different surface treatments and at temperatures up to 200 C. Oxygen and water exposures exhibit a complex behavior as they can both act quenching and enhancing on the photoluminescence intensity dependent on the temperature.	Water	237-242	gigaxonin	Homo sapiens	128-131	
32638585-5	2020	The p-GaN/AuNPs/RuCY photocathode was coupled with a hematite photoanode to drive photoelectrochemical CO2 reduction along with water oxidation.	Water	128-133	gigaxonin	Homo sapiens	6-9	
32901640-0	2020	van der Waals heterostructures based on MSSe (M = Mo, W) and graphene-like GaN: enhanced optoelectronic and photocatalytic properties for water splitting.	Water	138-143	gigaxonin	Homo sapiens	75-78	
29706066-0	2018	Interface Engineering of Monolayer MoS2/GaN Hybrid Heterostructure: Modified Band Alignment for Photocatalytic Water Splitting Application by Nitridation Treatment.	Water	111-116	gigaxonin	Homo sapiens	40-43	
29634249-6	2018	It is anticipated that the water-splitting capability of (GaN)1- x(ZnO) x nanowire can be further increased through alignment control for enhanced visible light absorption and reduction of charge transfer resistance.	Water	27-32	gigaxonin	Homo sapiens	58-63	
29350908-0	2018	Light Modulation and Water Splitting Enhancement Using a Composite Porous GaN Structure.	Water	21-26	gigaxonin	Homo sapiens	74-77	
29350908-2	2018	Compared to the plane GaN, the composite porous GaN structure with the combination of the vertical holes can help to reduce UV reflectance and increase the saturation photocurrent during water splitting by a factor of ~4.5.	Water	187-192	gigaxonin	Homo sapiens	48-51	
27347685-3	2016	The dry etching of single-layer SiO2 nanosphere-coated GaN produces a pyramidal shape of the GaN, making the pores open at both sides and shortening the escape path of evolved gas bubbles produced inside pores during the water oxidation.	Water	221-226	gigaxonin	Homo sapiens	55-58	
28157866-1	2017	GaN<sub>1-x</sub>Sb<sub>x</sub> with x~5%-7% is a highly mismatched alloy predicted to have favorable properties for application as an electrode in a photoelectrochemical cell for solar water splitting.	Water	210-215	gigaxonin	Homo sapiens	0-3	
27347685-1	2016	Parallel aligned mesopore arrays in pyramidal-shaped GaN are fabricated by using an electrochemical anodic etching technique, followed by inductively coupled plasma etching assisted by SiO2 nanosphere lithography, and used as a promising photoelectrode for solar water oxidation.	Water	263-268	gigaxonin	Homo sapiens	53-56	
27347685-3	2016	The dry etching of single-layer SiO2 nanosphere-coated GaN produces a pyramidal shape of the GaN, making the pores open at both sides and shortening the escape path of evolved gas bubbles produced inside pores during the water oxidation.	Water	221-226	gigaxonin	Homo sapiens	93-96	
23679914-2	2013	We found that the activation barrier of H2O dissociation at the kinked site of the Ga-terminated GaN surface is about 0.8 eV, which is significantly lower than that at the stepped site of about 1.2 eV.	Water	40-43	gigaxonin	Homo sapiens	97-100	
25479565-5	2014	Surface analysis confirmed degradation of the surface of GaN after radiation exposure in water; however, the peptide molecules successfully remained on the surface following exposure to ionizing radiation.	Water	89-94	gigaxonin	Homo sapiens	57-60	
25379929-4	2014	The application to the specific cases of nonpolar (101 0) facets of GaN and ZnO reveals a significant role for the structural motifs at the interface, including the degree of interface water dissociation and the dynamical fluctuations in the interface Zn-O and O-H bond orientations.	Water	185-190	gigaxonin	Homo sapiens	68-71	
23037534-4	2012	Under the visible light illumination and a bias voltage below 1.2 V, the Mn-doped GaN photoelectrodes could drive the water splitting reaction for hydrogen generation.	Water	118-123	gigaxonin	Homo sapiens	82-85	
23037534-0	2012	Mn-doped GaN as photoelectrodes for the photoelectrolysis of water under visible light.	Water	61-66	gigaxonin	Homo sapiens	9-12