PMID-sentid	Pub_year	Sent_text	compound_name	comp_offset	prot_official_name	organism	prot_offset
35014793-4	2022	Rietveld refinement of ex situ powder X-ray diffraction showed that a Li-deficient phase of Li2O2, Li2-xO2, formed when discharging and was present over the course of charging.	Li2O2	92-97	ATP binding cassette subfamily A member 12	Homo sapiens	99-102
28135104-5	2017	On the other hand, CoII-salen works as a mobile O2-carrier and accelerates Li2O2 formation through the reaciton of (CoIII-salen)2-O22- + 2Li+ + 2e-   2CoII-salen + Li2O2.	Li2O2	75-80	mitochondrially encoded cytochrome c oxidase II	Homo sapiens	19-23
32118173-8	2020	The Li2CO3 and carbon reactants may improve rate capability by facilitating Li+ transport, and LiF may stabilize the Li2O2 (and/or LiO2) produced by the oxygen redox reaction with lithia.	Li2O2	117-122	LIF interleukin 6 family cytokine	Homo sapiens	95-98
30925409-0	2019	Realizing Formation and Decomposition of Li2O2 on Its Own Surface with a Highly Dispersed Catalyst for High Round-Trip Efficiency Li-O2 Batteries.	Li2O2	41-46	TRAF interacting protein	Homo sapiens	114-118
30087964-9	2018	During our experiments, we investigated the impact of TTF, TMPD, Fc and TEMPO on the oxidation of Li2O2.	Li2O2	98-103	ras homolog family member H	Homo sapiens	54-57
28686250-1	2017	Commercially available Li2O2 was proposed as a cathode additive in commercialized LiNi0.33Co0.33Mn0.33O2 (NCM) cathodes to offset the initial Li loss.	Li2O2	23-28	CWC22 spliceosome associated protein homolog	Homo sapiens	106-109
28686250-2	2017	Li2O2 can be decomposed substantially under catalysis of NCM and leaves almost no remnants after the Li compensation.	Li2O2	0-5	CWC22 spliceosome associated protein homolog	Homo sapiens	57-60
27532334-6	2016	The energy profiles of (Li2O2)2 and (Li2O)2 nucleation on delta-MnO2 monolayer during the discharge process demonstrate that Li2O2 is the predominant discharge product and that further reduction to Li2O is inhibited by the high overpotential of 1.21 V. Interface structures have been examined to study the interaction between the Li2O2 and MnO2 layers.	Li2O2	125-130	ATP binding cassette subfamily A member 12	Homo sapiens	24-27
28076952-3	2017	Due to the fast reaction kinetics on the catalyst, the Li2O2 formed in the presence of catalyst (cat-CNF) shows a low degree of ordering and is more likely to be amorphous.	Li2O2	55-60	NPHS1 adhesion molecule, nephrin	Homo sapiens	101-104
27586935-3	2016	The x-ray diffraction data of Li2O2, on the other hand, show no dramatic structural change but remain well within a P63/mmc structure to 63 GPa.	Li2O2	30-35	tumor protein p63	Homo sapiens	116-143
25341076-7	2014	In the case of in situ charged bulk crystalline Li2O2, the Li vacancies preferentially form on the interlayer position (Li1), which is supported by first-principle calculations and consistent with their lower energy compared to those located next to oxygen (Li2).	Li2O2	48-53	transglutaminase 1	Homo sapiens	120-123
23995325-7	2013	Here we show that a TiC-based cathode reduces greatly side reactions (arising from the electrolyte and electrode degradation) compared with carbon and exhibits better reversible formation/decomposition of Li2O2 even than nanoporous gold (&gt;98% capacity retention after 100 cycles, compared with 95% for nanoporous gold); it is also four times lighter, of lower cost and easier to fabricate.	Li2O2	205-210	pleckstrin and Sec7 domain containing 4	Homo sapiens	20-23