PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34374276-5	2021	In the two-step reaction (route III), an endocyclic Cd2+ complex, (Cd(L)I2) (3), obtained in the first step was utilized in the following reaction with Cu(CH3CN)4PF6, giving rise to an endo/exocyclic tetranuclear Cu+ complex, (Cu4(L)2(CH3CN)6)(PF6)4 (4), via Cd2+   2Cu+ substitution, which is not accessible by conventional procedures.	Copper	213-216	CD2 molecule	Homo sapiens	52-55	
34403904-2	2022	This study demonstrates the electrochemically assisted uptake and release of cadmium ions (Cd2+) using a redox-active Cu-based metal-organic framework (MOF) electrode.	Copper	118-120	CD2 molecule	Homo sapiens	91-94	
34403904-4	2022	This work utilized copper within the CuGA structure as a redox center to attract Cd2+ by means of Cu2+/Cu+ reduction, exhibiting rapid uptake kinetics and a much higher capacity (>60 mg g-1) compared to the case without electrochemical assistance (~15 mg g-1).	Copper	19-25	CD2 molecule	Homo sapiens	81-84	
34403904-4	2022	This work utilized copper within the CuGA structure as a redox center to attract Cd2+ by means of Cu2+/Cu+ reduction, exhibiting rapid uptake kinetics and a much higher capacity (>60 mg g-1) compared to the case without electrochemical assistance (~15 mg g-1).	Copper	103-106	CD2 molecule	Homo sapiens	81-84	
34403904-5	2022	In addition, by applying an opposite overpotential to induce the re-oxidation of copper, the facile recovery of Cd2+ and the regeneration of the electrode were possible without regenerants.	Copper	81-87	CD2 molecule	Homo sapiens	112-115	
34403904-7	2022	This work presents the feasibility of a Cu-based MOF electrode as a reusable platform for the efficient removal of Cd2+, supporting the continued discovery and development of new Faradaic electrodes for electrochemical wastewater treatments.	Copper	40-42	CD2 molecule	Homo sapiens	115-118	
34311356-6	2021	DW and FT aging both increased the adsorption capacity of Cu2+, but decreased that of Cd2+ in the three biochars, resulting in a reduction in Cu bioavailability and increase in Cd bioavailability in the biochars after the saturated adsorption of Cu2+ and Cd2+.	Copper	142-144	CD2 molecule	Homo sapiens	86-89	
34374276-5	2021	In the two-step reaction (route III), an endocyclic Cd2+ complex, (Cd(L)I2) (3), obtained in the first step was utilized in the following reaction with Cu(CH3CN)4PF6, giving rise to an endo/exocyclic tetranuclear Cu+ complex, (Cu4(L)2(CH3CN)6)(PF6)4 (4), via Cd2+   2Cu+ substitution, which is not accessible by conventional procedures.	Copper	213-216	CD2 molecule	Homo sapiens	259-262	
34374276-6	2021	Solution studies by comparative NMR and electrospray ionization mass spectroscopy also support metal substitution by showing the stronger binding affinity of Cu+ over Cd2+.	Copper	158-161	CD2 molecule	Homo sapiens	167-170	
26617434-8	2015	Once inside the covellite particles, Cd2+ and Hg2+ cations engaged in exchange reactions, pushing the expelled Cu+ ions toward the not-yet exchanged regions in the same particles, or out to the solution, from where they could be recaptured by other covellite nanoparticles/domains.	Copper	111-114	CD2 molecule	Homo sapiens	37-40	
2959502-7	1987	For the 3-metal cluster, the affinity is found to decrease in the order Cu+ greater than Cd2+ greater than Zn2+ with Cd2+ greater than Zn2+ for the 4 metal cluster and Cd2+ (4-metal cluster) greater than Cd2+ (3-metal cluster).	Copper	72-75	CD2 molecule	Homo sapiens	89-92	
2959502-7	1987	For the 3-metal cluster, the affinity is found to decrease in the order Cu+ greater than Cd2+ greater than Zn2+ with Cd2+ greater than Zn2+ for the 4 metal cluster and Cd2+ (4-metal cluster) greater than Cd2+ (3-metal cluster).	Copper	72-75	CD2 molecule	Homo sapiens	117-120	
2959502-7	1987	For the 3-metal cluster, the affinity is found to decrease in the order Cu+ greater than Cd2+ greater than Zn2+ with Cd2+ greater than Zn2+ for the 4 metal cluster and Cd2+ (4-metal cluster) greater than Cd2+ (3-metal cluster).	Copper	72-75	CD2 molecule	Homo sapiens	117-120	
2959502-7	1987	For the 3-metal cluster, the affinity is found to decrease in the order Cu+ greater than Cd2+ greater than Zn2+ with Cd2+ greater than Zn2+ for the 4 metal cluster and Cd2+ (4-metal cluster) greater than Cd2+ (3-metal cluster).	Copper	72-75	CD2 molecule	Homo sapiens	117-120	
6825199-3	1983	During this period, renal copper content doubles due to the replacement of thionein-bound Cd2+ with Cu2+.	Copper	26-32	CD2 molecule	Homo sapiens	90-93	
31717598-4	2019	Nano-copper was deposited onto the surface of carbon fiber to enhance the current concentration and mass transfer rate of Cd2+ during measurement, which improved the electrochemical detection sensitivity significantly (by up to 3.7 x 108 nA/nM) and broadened the linear range to 10~105 nM.	Copper	5-11	CD2 molecule	Homo sapiens	122-125	
34449598-3	2021	In Cd2+ and Cu2+ ion sorption tests, the synthesized dihydrazide-based PAMH hydrogel particles exhibited sorption capacities of 85 mg/g for copper and 47 mg/g for cadmium.	Copper	140-146	CD2 molecule	Homo sapiens	3-6	
35624611-8	2022	The use of this enzymic membrane proved to be advantageous when reversible inhibitors such as the copper ion (Cu2+) were present in water samples, as Cu2+ can interfere with Cd2+ and cause erroneous results.	Copper	98-104	CD2 molecule	Homo sapiens	174-177	
35065379-0	2022	Functionalized Cu-based metal oxide nanoparticles with enhanced Cd+2 adsorption capacity and their ecotoxicity assessment by molecular docking.	Copper	15-17	CD2 molecule	Homo sapiens	64-68	
35224594-4	2022	In the case of djurleite Cu1.94S NDs, the Cu+ was immediately substituted by Cd2+ and solid wurtzite CdS NDs were produced.	Copper	42-45	CD2 molecule	Homo sapiens	77-80	
33294387-3	2020	We hypothesized that Cd2+ could be transported into cells via a membrane copper (Cu) transporter, CTR1.	Copper	73-79	CD2 molecule	Homo sapiens	21-24	
33294387-3	2020	We hypothesized that Cd2+ could be transported into cells via a membrane copper (Cu) transporter, CTR1.	Copper	81-83	CD2 molecule	Homo sapiens	21-24	
30602243-6	2019	The selectivity study in bimetal aqueous systems using copper, lead and zinc metals showed the adsorption order of Cu2+ &gt; Cd2+ &gt; Zn2+ &gt; Pb2+.	Copper	55-61	CD2 molecule	Homo sapiens	125-128	
17102865-5	2006	However, the Cd2+ complex with [17](DBF)N2O2 exhibits the highest value of stability constant for the whole series of metal ions studied, indicating that this ligand reveals a remarkable selectivity for cadmium(II) in the presence of all the metal ions studied, except copper(II), indicating that this ligand reveals a remarkable selectivity for cadmium(II) in the presence of the mentioned metal ions.	Copper	269-275	CD2 molecule	Homo sapiens	13-16