PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
31884699-2	2020	We report here a microwave heating strategy for synthesizing a transition metal chalcogenide nanostructure that efficiently catalyzes CO 2 electroreduction to carbon monoxide (CO).	Carbon Monoxide	159-174	complement C2	Homo sapiens	134-138	
29718568-0	2018	An Exceptionally Efficient Co-Co2 P@N, P-Codoped Carbon Hybrid Catalyst for Visible Light-Driven CO2 -to-CO Conversion.	Carbon Monoxide	97-99	complement C2	Homo sapiens	30-33	
29718568-4	2018	Here, a visible light-driven system for CO2 -to-CO conversion is reported, which consists of a heterogeneous hybrid catalyst of Co and Co2 P nanoparticles embedded in carbon nanolayers codoped with N and P (Co-Co2 P@NPC) and a homogeneous RuII -based complex photosensitizer.	Carbon Monoxide	40-42	complement C2	Homo sapiens	135-138	
29641173-0	2018	Monodisperse Metal-Organic Framework Nanospheres with Encapsulated Core-Shell Nanoparticles Pt/Au@Pd@{Co2(oba)4(3-bpdh)2}4H2O for the Highly Selective Conversion of CO2 to CO.	Carbon Monoxide	165-167	complement C2	Homo sapiens	102-105	
21673755-1	2011	Detection of carbon monoxide (CO) in combustion gases by tunable diode laser spectrometry is often hampered by spectral interferences from H2O and CO2.	Carbon Monoxide	13-28	complement C2	Homo sapiens	139-150	
30842680-2	2012	We find that although CO is predicted to be a major atmospheric constituent on hot Jupiters for all C/O ratios, other oxygen-bearing molecules like H2O and CO2 are much more abundant when C/O < 1, whereas CH4, HCN, and C2H2 gain significantly in abundance when C/O > 1.	Carbon Monoxide	22-24	complement C2	Homo sapiens	100-159	
31457217-4	2017	For the oxidation of carbon monoxide, although most alloys showed a significant change in catalytic activity during measurement due to an irreversible oxidation of the alloy, Co2TiSn alloy showed a very small change.	Carbon Monoxide	21-36	complement C2	Homo sapiens	175-178	
26406423-4	2015	METHODS: B12r-mediated conversion of CO to CO2 and COHgb t1/2 in human blood were measured by gas analysis and Raman resonance spectroscopy.	Carbon Monoxide	37-39	complement C2	Homo sapiens	43-61	
21673755-1	2011	Detection of carbon monoxide (CO) in combustion gases by tunable diode laser spectrometry is often hampered by spectral interferences from H2O and CO2.	Carbon Monoxide	30-32	complement C2	Homo sapiens	139-150	
15268595-0	2004	New results for the OH (nu = 0,j = 0) + CO (nu = 0,j = 0) --> H + CO2 reaction: Five- and full-dimensional quantum dynamical study on several potential energy surfaces.	Carbon Monoxide	40-42	complement C2	Homo sapiens	69-72	
18425614-2	2008	The bioreactors employed a unique type of hydrogenase activity found in some photosynthetic bacteria that functions in darkness to shift CO (and H2O) into H(2) (and CO2).	Carbon Monoxide	137-141	complement C2	Homo sapiens	165-168	
34826564-1	2022	Syngas from pyrolysis/gasification process is a mixture of CO, CO2 and H2, which could be bio-converted to CH4, so called syngas biomethanation.	Carbon Monoxide	59-61	complement C2	Homo sapiens	63-73	
3149538-5	1988	At the ionization of CO molecules, the ions CO+, C+, O+ and CO2+ were registered; at CO2, the ions CO2+, CO+, O+, C+ and CO2(2)+; at NO, the ions NO+, N+, O+ and NO2+; at N2O, the ions N2O+, NO+, N2+, O+, (N+,N2(2)+) and N2O2+.	Carbon Monoxide	21-23	complement C2	Homo sapiens	60-63	
701238-5	1978	Upon ligation of carbon monoxide to the beta(Fe)2 subunits in alpha(Co)2beta(Fe)2, the spectral properties of deoxy-alpha(Co)2 subunits became similar to those of the deoxy-beta(Co)2 subunits.	Carbon Monoxide	17-32	complement C2	Homo sapiens	62-72	
701238-5	1978	Upon ligation of carbon monoxide to the beta(Fe)2 subunits in alpha(Co)2beta(Fe)2, the spectral properties of deoxy-alpha(Co)2 subunits became similar to those of the deoxy-beta(Co)2 subunits.	Carbon Monoxide	17-32	complement C2	Homo sapiens	173-182