PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 12639118-2 2003 Addition of aqueous H(2)O(2) to methanol solutions of the Mn(II) complexes of L(1) and L(2) produced green solutions in a fast reaction from which subsequently precipitated brown solids of the dioxo-bridged dinuclear complexes 1 and 2, respectively, which have the general formula [LMn(III)(mu-O)(2)Mn(III)L](ClO(4))(2). Water 20-25 L1 cell adhesion molecule Homo sapiens 78-82 16180444-7 2005 Final water turbidity was < 1.0 NTU, COD < 20 mg L(-1) O2 and 71 mNm(-1), the liquid/air interfacial tension. Water 6-11 L1 cell adhesion molecule Homo sapiens 55-70 9450593-6 1998 In addition, the water plant"s radium laden iron filters contributed 7 Bq L-1 and 60 Bq L-1 of 222Rn to the finished water in What Cheer, Iowa, and Wellman, Iowa, respectively. Water 17-22 L1 cell adhesion molecule Homo sapiens 74-100 32750556-10 2020 So, the content of 152Eu and 241Am radionuclides are intensively released into the water: from 0 to 198 +- 8 Bq L-1 and 167 +- 7 Bq L-1, respectively. Water 83-88 L1 cell adhesion molecule Homo sapiens 112-135 32797882-7 2020 The analysis of natural water samples showed that total mercury levels ranged from concentrations lower than the method detection limit (2.0 ng L-1) to 10.9 ng L-1. Water 24-29 L1 cell adhesion molecule Homo sapiens 160-163 32797882-9 2020 To our knowledge, the developed method is the first ICP-MS method for the analysis of humic-rich natural water samples at ng L-1 concentrations without the need for hyphenated techniques or preconcentration procedures. Water 105-110 L1 cell adhesion molecule Homo sapiens 125-128 32585517-8 2020 The retention percentage for simulated water was 46.3% at a concentration of 1300 mu g L-1. Water 39-44 L1 cell adhesion molecule Homo sapiens 87-90 1825965-5 1991 Preliminary studies using this technique show that basal skin water loss is significantly diminished in patients with established diabetic neuropathy (0.91 +/- 0.18 g (+/- SD) cm-2 h-1) compared with normal subjects (1.21 +/- 0.39 g cm-2 h-1; p = 0.04) and non-neuropathic diabetic subjects (1.32 +/- 0.48 g cm-2 h-1; p = 0.04), and that local sweating induced by iontophoresis of 10 g l-1 acetylcholine is significantly reduced in diabetic subjects up to 5 min of recording (0.95 +/- 0.43 vs 1.26 +/- 0.40 mg; p = 0.02). Water 62-67 L1 cell adhesion molecule Homo sapiens 386-389 34700330-1 2021 Two luminescent Cd(II)-organic frameworks (Cd2(L1)(tdc)2(H2O))n (1) and (Cd(L2)0.5(tdc))n (2) (L1 = 1,5-bis(1-(pyridine-4-ylmethyl)-1H-benzo(d)imidazol-2-yl)pentane, L2 = 1,6-bis(1-(pyridine-4-ylmethyl)-1H-benzo(d)imidazol-2-yl)hexane, and H2tdc = 2,5-thiophenedicarboxylic acid) were hydrothermally synthesized and characterized. Water 57-60 L1 cell adhesion molecule Homo sapiens 43-49 35266301-8 2022 Under these optimal conditions, the limits of detection and limits of quantitation determined were in the range of 0.5-2.8 mug L-1 and 1.5-9 mug L-1 , for water, urine and plasma samples, respectively. Water 155-160 L1 cell adhesion molecule Homo sapiens 127-140 33677279-7 2021 AnMBR was able to produce permeate water with an average COD of 51 +- 8 mg L-1 at an HRT of 2 d during the summer period with an average temperature of 24 C. The effluent COD increased to 67 +- 10 mg L-1 and reached 91 +- 5 mg L-1 for HRT 1 d and 12 h respectively for the same temperature range. Water 35-40 L1 cell adhesion molecule Homo sapiens 201-231 32839911-3 2021 The concentrations of the ten detected pesticides ranged from not detected (ND) to 323.44 ng L-1 in different water samples from Beijing; metalaxyl was detected to have the highest concentration (89.58 ng L-1), and the detection frequencies of atrazine and metalaxyl were 100%. Water 110-115 L1 cell adhesion molecule Homo sapiens 93-96 32698056-11 2020 The ammonium content in the pore water (up to 5.34 mg L-1) was much higher than the limit for drinking water of 0.5 mg L-1 in China. Water 33-38 L1 cell adhesion molecule Homo sapiens 54-57 32707599-7 2020 The optimized method was applied to tap and surface waters; two anti-inflammatory drugs were detected at the ng L-1 level in surface water. Water 52-57 L1 cell adhesion molecule Homo sapiens 112-115 32812959-7 2020 Furthermore, complexation of L1 with Cu(BF4)2 H2O and Zn(CF3SO3)2 provided a 2D 3D interpenetrated network containing a classic dimeric copper paddle-wheel SBU, and an infinite 1D chain which extended into a 3D structure facilitated by hydrogen-bonding interactions, respectively. Water 46-49 L1 cell adhesion molecule Homo sapiens 29-31 32777598-1 2020 The European Union has proposed the value of 1 ng L-1 as a drinking water quality standard for estradiol. Water 68-73 L1 cell adhesion molecule Homo sapiens 50-53 32526422-4 2020 The total Hg (THg) concentration of surface water in the KRB ranged from 0.64 to 32.96 ng L-1 with an average of 5.83 +- 6.19 ng L-1 and decreased in the order of post-monsoon (8.79 +- 7.32 ng L-1) > monsoon (6.68 +- 6.12 ng L-1) > pre-monsoon (2.18 +- 1.29 ng L-1). Water 44-49 L1 cell adhesion molecule Homo sapiens 90-93 32846092-1 2020 The growing use of silver-based nanoparticles (Ag-b-NPs) in everyday products goes in hand with their release into the environment, resulting in ng L-1 traces in natural water bodies. Water 170-175 L1 cell adhesion molecule Homo sapiens 148-151 32811144-5 2020 By treating simulated wastewater six times with this material, the PFOA concentration in water was reduced from 1 ppm to 43 ppt (43 ng L-1), showing that PR-PEG-PFA is a promising adsorbent for PFASs separation, recovery, and recycling. Water 27-32 L1 cell adhesion molecule Homo sapiens 135-138 32375090-4 2020 Results showed that concentrations of individual PAHs in the surface water ranged from less than the limit of quantification (LOQ) to 949 ng L-1, indicating a reduction of PAH contamination level after the implementation of environmental management actions. Water 69-74 L1 cell adhesion molecule Homo sapiens 141-144 32531136-7 2020 Moreover, limits of detection and limits of the quantification were in the range of 3-10 mug L-1 and 7-30 mug L-1 in water and biological samples, respectively. Water 117-122 L1 cell adhesion molecule Homo sapiens 93-96 32422455-9 2020 Geogenic materials (topsoil and mining tailings), and water samples could contain extremely high arsenic concentrations, i.e. 21,000 mg kg-1 or 1,700,000 mug L-1, respectively, have been found mainly at the "Iron Quadrangle". Water 54-59 L1 cell adhesion molecule Homo sapiens 158-161 32312447-7 2020 The minimum detectable concentrations were far below the maximum concentration levels (60-200 mug L-1) set by the WHO for drinking water. Water 131-136 L1 cell adhesion molecule Homo sapiens 98-101 32608896-5 2020 The results showed that the bottom water of the lower terrain rapidly entered the anaerobic condition after the system was deactivated, resulting in the release of a large amount of dissolved manganese into the overlying water, the maximum concentration of which was 0.42 mg L-1. Water 35-40 L1 cell adhesion molecule Homo sapiens 275-278 32443213-4 2020 For alkylphenols concentrations ranged from 1.1 to 78.3 ng L-1 in wastewater and from 0.1 to 37.2 ng L-1 in surface water, while in drinking water concentrations varied from 0.4 to 7.9 ng L-1. Water 71-76 L1 cell adhesion molecule Homo sapiens 59-62 32623574-5 2020 The highest concentration levels in the samples taken from both types of water were 0.9 and 60 mug L-1 for BPA and DEHP, respectively. Water 73-78 L1 cell adhesion molecule Homo sapiens 99-102 32443213-4 2020 For alkylphenols concentrations ranged from 1.1 to 78.3 ng L-1 in wastewater and from 0.1 to 37.2 ng L-1 in surface water, while in drinking water concentrations varied from 0.4 to 7.9 ng L-1. Water 116-121 L1 cell adhesion molecule Homo sapiens 101-104 32443213-4 2020 For alkylphenols concentrations ranged from 1.1 to 78.3 ng L-1 in wastewater and from 0.1 to 37.2 ng L-1 in surface water, while in drinking water concentrations varied from 0.4 to 7.9 ng L-1. Water 116-121 L1 cell adhesion molecule Homo sapiens 101-104 32443213-9 2020 In drinking water, EEQt was below 1 ng L-1 in all samples. Water 12-17 L1 cell adhesion molecule Homo sapiens 39-42 32583581-6 2020 Remarkably, nitrate conversion and nitrogen selectivity are both close to 100% in an ultralow concentration of 10 mg L-1 , meeting drinking water standard. Water 140-145 L1 cell adhesion molecule Homo sapiens 117-120 32608844-6 2020 The total concentrations of antibiotics in surface water ranged from 1.12 ng L-1 to 53.74 ng L-1. Water 51-56 L1 cell adhesion molecule Homo sapiens 77-80 32329336-5 2020 The limit of detection of PFOA in ultrapure water was 11.0 ng L-1. Water 44-49 L1 cell adhesion molecule Homo sapiens 62-65 32608844-6 2020 The total concentrations of antibiotics in surface water ranged from 1.12 ng L-1 to 53.74 ng L-1. Water 51-56 L1 cell adhesion molecule Homo sapiens 93-96 29457761-5 2019 HP with 1.4 g TiO2 L-1 at pH 7 under sunlight, produced 85% TOC removal in deionized water and 39% in WWTP effluent also after 3 h treatment. Water 85-90 L1 cell adhesion molecule Homo sapiens 19-22 32608668-7 2020 The highest concentrations of acesulfame, saccharin, aspartame, and neotame in source water were 22.94, 39.17, 0.73, and 8.92 mug L-1, respectively, and detection rates were 72.7%, 90.9%, 18.2%, and 90.9%, respectively. Water 86-91 L1 cell adhesion molecule Homo sapiens 130-133 31984281-4 2020 On the basis of extended conjugation and planarity, L 1 complexes exhibited superior bioactivity with greater calculated DNA binding constant values, (K b) 2.9444 x 103 [(L 1 ) 2 Cu] and 2.2693 x 103 [(L 1 ) 2 Zn], as compared to L 2 complexes, 1.793 x 103 [(L 2 )Cu(H 2 O)] and 9.801 x 102 [(L 2 )Zn(H 2 O)]. Water 267-272 L1 cell adhesion molecule Homo sapiens 52-55 31984281-4 2020 On the basis of extended conjugation and planarity, L 1 complexes exhibited superior bioactivity with greater calculated DNA binding constant values, (K b) 2.9444 x 103 [(L 1 ) 2 Cu] and 2.2693 x 103 [(L 1 ) 2 Zn], as compared to L 2 complexes, 1.793 x 103 [(L 2 )Cu(H 2 O)] and 9.801 x 102 [(L 2 )Zn(H 2 O)]. Water 301-306 L1 cell adhesion molecule Homo sapiens 52-55 31499309-5 2020 Complete degradation of phenol (of initial concentration 50 mg L-1) was achieved under the near-optimum operating conditions (40 mA cm-2, pH 7, 0.4 m3 h-1 water circulation rate) within 30 min. Water 155-160 L1 cell adhesion molecule Homo sapiens 63-66 31983004-3 2020 The initial pH value significantly influenced on the degradation of p-ASA and at the optimal pH (3.0), p-ASA (10 mg L-1) could be completely oxidized to As(V), NH4+, and plentiful phenolic compounds such as phenol and p-hydroquinone via the cleavage of C-N and C-As bonds within 60 min in pure water. Water 294-299 L1 cell adhesion molecule Homo sapiens 116-119 31635452-10 2019 However, the addition of H2O2, when the background NH2Cl level was above 2 mg L-1 (as Cl2) provided limited improvement in treatment efficiency. Water 25-29 L1 cell adhesion molecule Homo sapiens 78-81 30412882-6 2019 This study points to excess nutrients in HCMC"s water body with concentrations of NH4+ and PO43- averaging to 0.7 +- 0.6 mgN L-1 and 0.07 +- 0.06 mgP L-1, respectively in mean over the monitored period and rising up to 3 mgN L-1 and 0.2 mgP L-1, in extreme conditions. Water 48-53 L1 cell adhesion molecule Homo sapiens 125-128 30712591-7 2019 The method was optimized and validated for the determination of 29 pesticides in water, showing good linearity in the range between 0.012 and 40.00 mug L-1 with determination coefficients of R2 > 0,9649. Water 81-86 L1 cell adhesion molecule Homo sapiens 152-155 30791184-6 2019 2.8 mg L-1 ) under continuous operating mode, data indicates that about 1750 kg water m-2 membrane can be treated while maintaining drinking water quality, and the saturated membranes can be regenerated and reused several times without decrease in performance. Water 80-85 L1 cell adhesion molecule Homo sapiens 7-10 30577122-6 2019 The median concentrations were <100 ng L-1 and 220 ng g-1 (d.w.) in the water and sediments, respectively. Water 75-80 L1 cell adhesion molecule Homo sapiens 42-60 30412882-6 2019 This study points to excess nutrients in HCMC"s water body with concentrations of NH4+ and PO43- averaging to 0.7 +- 0.6 mgN L-1 and 0.07 +- 0.06 mgP L-1, respectively in mean over the monitored period and rising up to 3 mgN L-1 and 0.2 mgP L-1, in extreme conditions. Water 48-53 L1 cell adhesion molecule Homo sapiens 150-153 30412882-6 2019 This study points to excess nutrients in HCMC"s water body with concentrations of NH4+ and PO43- averaging to 0.7 +- 0.6 mgN L-1 and 0.07 +- 0.06 mgP L-1, respectively in mean over the monitored period and rising up to 3 mgN L-1 and 0.2 mgP L-1, in extreme conditions. Water 48-53 L1 cell adhesion molecule Homo sapiens 225-244 30224129-7 2018 Water samples from city tap water and three rivers in Beijing are assessed using this technique, and the typical T&O compositions are observed with concentrations ranging from 0.2 to 297 ng L-1. Water 0-5 L1 cell adhesion molecule Homo sapiens 194-197 30199716-7 2019 The proposed method was also proved with certified water sample containing 60 mug L-1 Pb2+ giving an excellent accuracy and was then implied satisfactorily for ultra-trace determination of Pb2+ in drinking water and tap water samples. Water 51-56 L1 cell adhesion molecule Homo sapiens 82-85 30180321-2 2019 In particular, nitrate concentrations exceeding the 50 mg L-1 limit established for drinking water pose the human health at risk. Water 93-98 L1 cell adhesion molecule Homo sapiens 58-61 30280885-4 2018 Water samples with high total dissolved solids (conductivity >100 mS cm-1) were also successfully analyzed after a simple dilution, yet the associated detection limit was higher (17 pg L-1, 0.61 Bq L-1, 16 pCi L-1). Water 0-5 L1 cell adhesion molecule Homo sapiens 188-191 30280885-4 2018 Water samples with high total dissolved solids (conductivity >100 mS cm-1) were also successfully analyzed after a simple dilution, yet the associated detection limit was higher (17 pg L-1, 0.61 Bq L-1, 16 pCi L-1). Water 0-5 L1 cell adhesion molecule Homo sapiens 201-204 30280885-4 2018 Water samples with high total dissolved solids (conductivity >100 mS cm-1) were also successfully analyzed after a simple dilution, yet the associated detection limit was higher (17 pg L-1, 0.61 Bq L-1, 16 pCi L-1). Water 0-5 L1 cell adhesion molecule Homo sapiens 201-204 30151540-4 2018 The standard addition experimental results of two real water samples with an addition level of 10 and 50 mug L-1 showed that the recoveries were between 92.4% and 108.9% with RSDs from 2.01% to 3.22%. Water 55-60 L1 cell adhesion molecule Homo sapiens 109-112 30066492-10 2018 Particularly, we found a low energy consumption (1.63 Wh L-1 ) for seawater desalination and a high water production rate (25 L m-2 h-1 ) for brackish water. Water 70-75 L1 cell adhesion molecule Homo sapiens 57-60 30188054-4 2018 Na+, Ca2+, Mg2+, and SO42- were the major ions present in water, with mean concentrations of 202.8, 86.0, 78.6, and 431.2 mg L-1 respectively. Water 58-63 L1 cell adhesion molecule Homo sapiens 125-128 29679891-7 2018 In highly contaminated water (100 mug L-1), the adsorbent polishes the water quality to well below the current WHO limits. Water 23-28 L1 cell adhesion molecule Homo sapiens 38-41 29679891-7 2018 In highly contaminated water (100 mug L-1), the adsorbent polishes the water quality to well below the current WHO limits. Water 71-76 L1 cell adhesion molecule Homo sapiens 38-41 29554533-8 2018 Finally, GBP and GBP-Lactam were found in potable water with concentrations up to 0.64 and 0.07 mug L-1, respectively. Water 50-55 L1 cell adhesion molecule Homo sapiens 100-103 29635185-3 2018 The detection limits of L1 and L2 were calculated by the fluorescence titration to be 4.13muM and 1.52muM, respectively, which were below the maximum permissive level of Fe3+ and Ni2+ ions in drinking water set by the EPA. Water 201-206 L1 cell adhesion molecule Homo sapiens 24-33 29573474-3 2018 The compounds L1, L2, and D1 could act as Eu3+ ion turn-off fluorescent sensors based on ligand-to-metal binding mechanism in DMSO-H2 O solution (v/v = 1:1, 10 mM Tris, pH = 7.4). Water 131-135 L1 cell adhesion molecule Homo sapiens 14-28 29897361-3 2018 Venlafaxine and its metabolite O-desmethylvenlafaxine were the primary compounds (reaching up to 132.04 and 173.68 ng L-1 as well as 3.03 and 4.53 ng L-1 in wastewater and receiving water, respectively). Water 162-167 L1 cell adhesion molecule Homo sapiens 150-153 29897361-2 2018 The concentration levels of selected antidepressants in wastewater and receiving water were both at ng L-1 level, but those antidepressants that were found in wastewater were typically in a range of one and even two orders of magnitude higher than those that were present in the receiving water except for the concentration levels of paroxetine, norfluoxetine, and nortriptyline. Water 81-86 L1 cell adhesion molecule Homo sapiens 103-106 29165649-6 2018 Results of 190 water samples shows radon concentrations from 0.2 to 28.0 Bq L-1, with a geometric mean of 5.0 Bq L-1. Water 15-20 L1 cell adhesion molecule Homo sapiens 76-79 29165649-6 2018 Results of 190 water samples shows radon concentrations from 0.2 to 28.0 Bq L-1, with a geometric mean of 5.0 Bq L-1. Water 15-20 L1 cell adhesion molecule Homo sapiens 113-116 30623697-7 2018 Limits of detection and quantitation of the 23 PFAS test compounds in water samples were 0.5-10 ng L-1 and 2-20 ng L-1, respectively. Water 70-75 L1 cell adhesion molecule Homo sapiens 99-102 29251308-5 2018 In vitro assays in combination with various sample enrichment methods have been used with limits of detection as low as 0.0027 ng L-1 in water, and 0.0026 ng g-1 in sediments for estrogenicity, 0.1 ng L-1 in water, and 0.5 ng g-1 in sediments for androgenicity, and 5 ng L-1 in water for progestogenicity expressed as equivalent concentrations of standard reference compounds of 17beta-estradiol, dihydrotestosterone and progesterone, respectively. Water 137-142 L1 cell adhesion molecule Homo sapiens 130-133 30623697-7 2018 Limits of detection and quantitation of the 23 PFAS test compounds in water samples were 0.5-10 ng L-1 and 2-20 ng L-1, respectively. Water 70-75 L1 cell adhesion molecule Homo sapiens 115-118 29124366-5 2017 The water temperatures are consistently above 25 C, which impairs dissolved oxygen levels (3.1 to 6.7 mg L-1) and may suggest eutrophication. Water 4-9 L1 cell adhesion molecule Homo sapiens 106-109 28722398-2 2017 Due to a nascent barrier layer with a loose architecture, the obtained TFC-BDSA-0.2 membrane showed an ultrahigh pure water permeability of 48.1 +- 2.1 L-1 m-2 h-1 bar-1, and a considerably low NaCl retention ability of <1.8% over a concentration range of 10-100 g L-1. Water 118-123 L1 cell adhesion molecule Homo sapiens 152-155 29071365-8 2017 The proposed analytical method was applied to the analysis of surface water samples, containing concentrations of these contaminants ranging from 100 ng L-1 to 2 mug L-1. Water 70-75 L1 cell adhesion molecule Homo sapiens 153-161 28601007-10 2017 Strikingly high concentrations of total I-THMs were observed in the finished water (2848 ng L-1 in conventional DWTP and 356 ng L-1 in advanced DWTP). Water 77-82 L1 cell adhesion molecule Homo sapiens 92-95 28689149-9 2017 Tightly coupled decreasing trends in stream-water silicon (Si) (-0.2 mueq L-1 yr-1) and base cations suggest a decrease in the soil mineral weathering rate. Water 44-49 L1 cell adhesion molecule Homo sapiens 74-82 29965398-2 2017 These results showed that macrolides have the highest average concentration of all antibiotics in the surface water of the LRB of 201.88 ng L-1, followed by quinolones, trimethoprim, and sulfonamides with average concentrations of 113.40 ng L-1, 93.93 ng L-1, and 124.27 ng L-1, respectively. Water 110-115 L1 cell adhesion molecule Homo sapiens 140-143 27844316-8 2017 Furthermore, the maximum concentrations in raw water of WTPs was kept at 82.1 ng L-1 for 2-MIB, 5.6 ng L-1 for geosmin, and 66.1 ng L-1 for beta-ionone. Water 47-52 L1 cell adhesion molecule Homo sapiens 81-84 29965089-3 2017 The ranges of geometric mean values were 0-655 ng L-1 and 0-252 ng L-1 in water samples from urban rivers and lakes,respectively. Water 74-79 L1 cell adhesion molecule Homo sapiens 50-70 29965151-9 2017 When treating eutrophic lake water with a phosphate concentration of 2 mg L-1, the phosphate concentration level could meet the III rank of Surface Water Environment Quality Standard of China by adopting the dosage of zirconium modified diatomite >=1.25 g L-1. Water 29-34 L1 cell adhesion molecule Homo sapiens 74-77 29965151-9 2017 When treating eutrophic lake water with a phosphate concentration of 2 mg L-1, the phosphate concentration level could meet the III rank of Surface Water Environment Quality Standard of China by adopting the dosage of zirconium modified diatomite >=1.25 g L-1. Water 148-153 L1 cell adhesion molecule Homo sapiens 74-77 27844316-8 2017 Furthermore, the maximum concentrations in raw water of WTPs was kept at 82.1 ng L-1 for 2-MIB, 5.6 ng L-1 for geosmin, and 66.1 ng L-1 for beta-ionone. Water 47-52 L1 cell adhesion molecule Homo sapiens 103-106 27844316-8 2017 Furthermore, the maximum concentrations in raw water of WTPs was kept at 82.1 ng L-1 for 2-MIB, 5.6 ng L-1 for geosmin, and 66.1 ng L-1 for beta-ionone. Water 47-52 L1 cell adhesion molecule Homo sapiens 103-106 27454810-2 2016 In several cases, even the neutral ligands, in addition to their protonated HL(+) and H2L(2+) (L = L1 and L2) forms, bind anions such as F(-), NO3(-), PF6(-), ClO4(-), and SO4(2-) to form stable complexes in water. Water 208-213 L1 cell adhesion molecule Homo sapiens 99-108 17009386-1 2007 A series of six new ligands (L(1)-L(6)) suitable for the formation of luminescent lanthanide complexes in water is described. Water 106-111 L1 cell adhesion molecule Homo sapiens 29-33 21077627-2 2010 The triureas (L(1), L(2)) show stronger binding of sulfate than tetraureas (L(3), L(4)) in DMSO because of their better conformational complementarity with sulfate, while the tetraureas display better "water tolerance" benefiting from the chelate effect and hydrophobic effect. Water 202-207 L1 cell adhesion molecule Homo sapiens 14-18 16574474-6 2006 The thermal behaviour of these chelates shows that the hydrated complexes losses water molecules of hydration in the first step followed immediately by decomposition of the coordinated water, anions and ligands (L1 and L2) in the subsequent steps. Water 81-86 L1 cell adhesion molecule Homo sapiens 212-221 16574474-6 2006 The thermal behaviour of these chelates shows that the hydrated complexes losses water molecules of hydration in the first step followed immediately by decomposition of the coordinated water, anions and ligands (L1 and L2) in the subsequent steps. Water 185-190 L1 cell adhesion molecule Homo sapiens 212-221