|1.||Das, Rudra Narayan: 2 articles (11/2015 - 06/2014)|
|2.||Roy, Kunal: 2 articles (11/2015 - 06/2014)|
|3.||Ranke, J: 2 articles (10/2013 - 07/2004)|
|4.||Chen, Biaohua: 2 articles (10/2012 - 02/2012)|
|5.||Qu, Yongshui: 2 articles (10/2012 - 02/2012)|
|6.||Zhang, Jie: 2 articles (10/2012 - 02/2012)|
|7.||Huang, Chongpin: 2 articles (10/2012 - 02/2012)|
|8.||Tong, Xinli: 2 articles (08/2010 - 03/2010)|
|9.||Li, Yongdan: 2 articles (08/2010 - 03/2010)|
|10.||Kumar, Vineet: 2 articles (01/2010 - 08/2009)|
11/01/2015 - "The present study explores the chemical attributes of diverse ionic liquids responsible for their cytotoxicity in a rat leukemia cell line (IPC-81) by developing predictive classification as well as regression-based mathematical models. "
10/01/2013 - "In this study we present prediction models for estimating in silico the cationic hydrophobicity and the cytotoxicity (log [1/EC50]) of ionic liquids (ILs) towards the Leukemia rat cell line (IPC-81), the marine bacterium Vibrio fischeri and the limnic green algae Scenedesmus vacuolatus using linear free energy relationship (LFER) descriptors computed by COSMO calculations. "
08/01/2015 - "Nonlinear QSAR modeling for predicting cytotoxicity of ionic liquids in leukemia rat cell line: an aid to green chemicals designing."
07/01/2004 - "Detailed biological studies of methyl- and some ethylimidazolium ionic liquids in luminescent bacteria as well as in the IPC-81 (leukemia cells) and C6 (glioma cells) rat cell lines are presented. "
10/01/2013 - "In silico modelling for predicting the cationic hydrophobicity and cytotoxicity of ionic liquids towards the Leukemia rat cell line, Vibrio fischeri and Scenedesmus vacuolatus based on molecular interaction potentials of ions."
|2.||Dehydration (Water Stress)
03/22/2010 - "A series of Brønsted-acidic ionic liquids has been synthesized and tested in the dehydration of D-fructose. "
09/24/2009 - "Thermodynamic measurements (at 298 K) reveal that a crucial step in the extraction process of the key antimalarial drug artemisinin by ionic liquids (ILs), namely, precipitation through the addition of water, is driven by artemisinin dehydration due to the differences in the water's interaction with the bulk ILs, rather than with the artemisinin itself."
09/24/2009 - "Unexpected preferential dehydration of artemisinin in ionic liquids."
08/22/2011 - "A study of the acid-catalyzed hydrolysis of cellulose dissolved in ionic liquids and the factors influencing the dehydration of glucose and the formation of humins."
02/01/2012 - "The dehydration of fructose to 5-hydroxymethylfurfural (5-HMF) with room temperature ionic liquids (ILs) is a way of producing liquid fuels from renewable resources, but separation of products and IL is energy intensive. "
09/14/2013 - "Moreover, the free energy released by inserting octadecylmethylimidazolium (OMIM(+)), a cation found in a class of common ionic liquids, into M-Eukar, M-Cancer as well as into the three reference model membranes is derived by applying thermodynamic integration. "
01/15/2010 - "The anti-cancer activity and cytotoxicity of imidazolium-based ionic liquids has been determined for the first time via NCI's in vitro 60 human tumor cell lines. "
01/15/2010 - "A profile of the in vitro anti-tumor activity of imidazolium-based ionic liquids."
08/15/2009 - "Study on the potential anti-cancer activity of phosphonium and ammonium-based ionic liquids."
01/15/2010 - "The preliminary SAR showed that the chain length of alkyl substitution at N-3 position of imidazole ring plays crucial role towards anti-tumor activity and cytotoxicity of these ionic liquids. "
10/05/2009 - "These ionic liquids are neither heat nor shock sensitive, are thermally stable up to over 200 degrees C, and can be prepared easily in large quantities."
01/01/2011 - "Specifically considered are: quantititave ESR, photocatalysis for pollution control; sorption and mobility of molecules in zeolites; free radicals produced by mechanical action and by shock waves from explosives; measurement of peroxyl radicals and nitrate radicals in air; determination of particulate matter polyaromatic hydrocarbons (PAH), soot and black carbon in air; estimation of nitrate and nitrite in vegetables and fruit; lipid-peroxidation by solid particles (silica, asbestos, coal dust); ESR of soils and other biogenic substances: formation of soil organic matter carbon capture and sequestration (CCS) and no-till farming; detection of reactive oxygen species in the photosynthetic apparatus of higher plants under light stress; molecular mobility and intracellular glasses in seeds and pollen; molecular mobility in dry cotton; characterisation of the surface of carbon black used for chromatography; ESR dating for archaeology and determining seawater levels; measurement of the quality of tea-leaves by ESR; green-catalysts and catalytic media; studies of petroleum (crude oil); fuels; methane hydrate; fuel cells; photovoltaics; source rocks; kerogen; carbonaceous chondrites to find an ESR-based marker for extraterrestrial origin; samples from the Moon taken on the Apollo 11 and Apollo 12 missions to understand space-weathering; ESR studies of organic matter in regard to oil and gas formation in the North Sea; solvation by ionic liquids as green solvents, ESR in food and nutraceutical research."
09/01/2012 - "The cytotoxicity of alkylmethylimidazolium-based ionic liquids on rat pheochromocytoma (PC12) cells was evaluated by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay, lactate dehydrogenase release (LDH), and acridine orange staining in the present study. "
09/01/2010 - "The biological effects of a class of oxygenated imidazolium ionic liquids were studied in comparison with alkyl imidazolium salts (BMIM BF4 and BMIM N(CN)2).The cellular and subcellular effects were evaluated on rat pheochromocytoma PC12 cell lines, through MTT test, lactate dehydrogenase release and acetylcholinesterase inhibition; the eco-toxicological responses were assessed through the acute toxicity tests towards Daphnia magna and Vibrio fischeri. "
|1.||Quaternary Ammonium Compounds (Ammonium)
|6.||Petroleum (Crude Oil)
|7.||L-Lactate Dehydrogenase (Lactate Dehydrogenase)
|8.||Explosive Agents (Explosives)