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Publication DateComputer Communications, ISSN 0140-3664, 12/2019, Volume 148, pp. 62 - 73
This paper presents a novel pulse position-coded PDU (PPCP) paradigm for multi-access wireless sensor nodes and IoT networks with thin energy budgets. The core...
PPCP hardware implementation | Wireless sensor networks | Pulse Position Coded PDU (PPCP) | Energy efficiency | Internet of Things
PPCP hardware implementation | Wireless sensor networks | Pulse Position Coded PDU (PPCP) | Energy efficiency | Internet of Things
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Loading RightsWater Research, ISSN 0043-1354, 03/2014, Volume 51, pp. 266 - 276
The occurrence and removal of thirty representative pharmaceutical and personal care products (PPCPs) and endocrine disrupting chemicals (EDCs) in an urban...
Drinking water treatment | Indicator compounds | Ozonation | PPCPs | Nonylphenol | DEET | EDCs
Drinking water treatment | Indicator compounds | Ozonation | PPCPs | Nonylphenol | DEET | EDCs
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Loading RightsEnvironmental Pollution, ISSN 0269-7491, 11/2006, Volume 144, Issue 1, pp. 184 - 189
The transport pathways of pharmaceutical and personal care products (PPCP) discharges within the urban water cycle include both combined and separate sewer...
PPCP pathways | PPCPs | Toxicity | Urban discharges | Dilution effects | toxicity | CONTAMINANTS | ENVIRONMENTAL SCIENCES | urban discharges | SEWAGE-TREATMENT PLANTS | SEWERS | dilution effects | DRUG RESIDUES | Humans | Environmental Monitoring - methods | Toxicity Tests, Acute | Rivers | Water Purification | Water Pollutants, Chemical - analysis | Rain | Sewage | Waste Disposal, Fluid - methods | Environmental Pollution - adverse effects | Cosmetics - analysis | London | Cities | Pharmaceutical Preparations - analysis | Toiletries | Purification | Pharmaceutical industry
PPCP pathways | PPCPs | Toxicity | Urban discharges | Dilution effects | toxicity | CONTAMINANTS | ENVIRONMENTAL SCIENCES | urban discharges | SEWAGE-TREATMENT PLANTS | SEWERS | dilution effects | DRUG RESIDUES | Humans | Environmental Monitoring - methods | Toxicity Tests, Acute | Rivers | Water Purification | Water Pollutants, Chemical - analysis | Rain | Sewage | Waste Disposal, Fluid - methods | Environmental Pollution - adverse effects | Cosmetics - analysis | London | Cities | Pharmaceutical Preparations - analysis | Toiletries | Purification | Pharmaceutical industry
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Loading RightsChemosphere, ISSN 0045-6535, 05/2017, Volume 174, pp. 437 - 446
A large number of emerging contaminants (ECs) are known to persist in surface waters, and create pressure on wastewater treatment works (WWTW) for their...
Illicit drugs | Wastewater | Pharmaceuticals and personal care products (PPCPs) | Risk assessment | Endocrine disrupting contaminants (EDCs) | TRICLOSAN | ADVERSE OUTCOME PATHWAYS | DICLOFENAC | MSUNDUZI RIVER | Pharmaceuticals and personal care products(PPCPs) | VITELLOGENIN | IBUPROFEN | ENVIRONMENTAL SCIENCES | SEDIMENT | WASTE-WATER | DEGRADATION | EXPOSURE | Pharmaceutical Preparations - isolation & purification | Endocrine Disruptors - metabolism | Waste Water - chemistry | Cosmetics - isolation & purification | Humans | Street Drugs - isolation & purification | Street Drugs - metabolism | Endocrine Disruptors - analysis | Waste Disposal, Fluid | Water Pollutants, Chemical - analysis | Water Pollutants, Chemical - metabolism | Pharmaceutical Preparations - metabolism | Water Pollutants, Chemical - isolation & purification | Cosmetics - metabolism | Cosmetics - analysis | Rivers - chemistry | Water - chemistry | Endocrine Disruptors - isolation & purification | Environment | Pharmaceutical Preparations - analysis | Street Drugs - analysis
Illicit drugs | Wastewater | Pharmaceuticals and personal care products (PPCPs) | Risk assessment | Endocrine disrupting contaminants (EDCs) | TRICLOSAN | ADVERSE OUTCOME PATHWAYS | DICLOFENAC | MSUNDUZI RIVER | Pharmaceuticals and personal care products(PPCPs) | VITELLOGENIN | IBUPROFEN | ENVIRONMENTAL SCIENCES | SEDIMENT | WASTE-WATER | DEGRADATION | EXPOSURE | Pharmaceutical Preparations - isolation & purification | Endocrine Disruptors - metabolism | Waste Water - chemistry | Cosmetics - isolation & purification | Humans | Street Drugs - isolation & purification | Street Drugs - metabolism | Endocrine Disruptors - analysis | Waste Disposal, Fluid | Water Pollutants, Chemical - analysis | Water Pollutants, Chemical - metabolism | Pharmaceutical Preparations - metabolism | Water Pollutants, Chemical - isolation & purification | Cosmetics - metabolism | Cosmetics - analysis | Rivers - chemistry | Water - chemistry | Endocrine Disruptors - isolation & purification | Environment | Pharmaceutical Preparations - analysis | Street Drugs - analysis
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Loading RightsCritical Reviews in Environmental Science and Technology, ISSN 1064-3389, 02/2016, Volume 46, Issue 4, pp. 336 - 381
Pharmaceuticals and personal care products (PPCPs), other emerging contaminants (ECs), and metabolites thereof are ubiquitous in the environment, both built...
non-monotonicity | epigenetic toxicity | pharmaceutical and personal care product (PPCP) | Emerging contaminant (EC) | environmental toxicology | prenatal toxicity | toxicity | nonmonotonicity | pharmaceutical and personal | care product (PPCP); prenatal | ENDOCRINE-DISRUPTING CHEMICALS | ZEBRAFISH DANIO-RERIO | ANTIBIOTIC-RESISTANCE | BREAST-MILK | ENVIRONMENTAL SCIENCES | IN-VITRO | WASTE-WATER | HUMAN URINE | TRANSGENERATIONAL INHERITANCE | BISPHENOL-A CONCENTRATIONS | PERFLUORINATED COMPOUNDS | Endocrine disruptors | Drugs | Musk | Toxicity | Food contamination | Personal grooming | Epidemiology | Ingestion | Precipitation | Analgesics | Metabolites | Trace levels | Urine | Plasticizers | Endocrine system | Consumer products | Chemical wastewater | Rainfall | Exposure | Sediments | Detergents | Biological activity | Heart rate | Perfluoro compounds | Organic chemistry | Fragrances | Reviews | Antibiotics | Contaminants | Epigenetics | Disruption | Cancer | Pharmaceuticals | Human | Biological
non-monotonicity | epigenetic toxicity | pharmaceutical and personal care product (PPCP) | Emerging contaminant (EC) | environmental toxicology | prenatal toxicity | toxicity | nonmonotonicity | pharmaceutical and personal | care product (PPCP); prenatal | ENDOCRINE-DISRUPTING CHEMICALS | ZEBRAFISH DANIO-RERIO | ANTIBIOTIC-RESISTANCE | BREAST-MILK | ENVIRONMENTAL SCIENCES | IN-VITRO | WASTE-WATER | HUMAN URINE | TRANSGENERATIONAL INHERITANCE | BISPHENOL-A CONCENTRATIONS | PERFLUORINATED COMPOUNDS | Endocrine disruptors | Drugs | Musk | Toxicity | Food contamination | Personal grooming | Epidemiology | Ingestion | Precipitation | Analgesics | Metabolites | Trace levels | Urine | Plasticizers | Endocrine system | Consumer products | Chemical wastewater | Rainfall | Exposure | Sediments | Detergents | Biological activity | Heart rate | Perfluoro compounds | Organic chemistry | Fragrances | Reviews | Antibiotics | Contaminants | Epigenetics | Disruption | Cancer | Pharmaceuticals | Human | Biological
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Loading RightsJournal of Hazardous Materials, ISSN 0304-3894, 01/2018, Volume 342, pp. 166 - 176
A novel Fenton-like catalyst (Zn-Fe-CNTs) capable of converting O to H O and further to OH was prepared through infiltration fusion method followed by chemical...
Fenton-like | In situ generation of H2O2 | Sulfamethoxazole | PPCPs | Micro-electrolysis | In situ generation of H | METHYLENE-BLUE | ELECTRO-FENTON | ZERO-VALENT IRON | CARE PRODUCTS PPCPS | PROCESS OPTIMIZATION | AQUEOUS-SOLUTION | NANOPARTICLES | ENVIRONMENTAL SCIENCES | REMOVAL | ADVANCED OXIDATION PROCESSES | ENGINEERING, ENVIRONMENTAL | WASTE-WATER
Fenton-like | In situ generation of H2O2 | Sulfamethoxazole | PPCPs | Micro-electrolysis | In situ generation of H | METHYLENE-BLUE | ELECTRO-FENTON | ZERO-VALENT IRON | CARE PRODUCTS PPCPS | PROCESS OPTIMIZATION | AQUEOUS-SOLUTION | NANOPARTICLES | ENVIRONMENTAL SCIENCES | REMOVAL | ADVANCED OXIDATION PROCESSES | ENGINEERING, ENVIRONMENTAL | WASTE-WATER
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Loading RightsJournal of Photochemistry and Photobiology A: Chemistry, ISSN 1010-6030, 06/2016, Volume 324, pp. 70 - 80
The presence of caffeine in treated wastewaters indicates its low removal efficiency during conventional wastewater treatment processes. A great efficiency has...
Oxynitrides | Perovskite | PPCPs | Photocatalysis | Caffeine | CsBa
Oxynitrides | Perovskite | PPCPs | Photocatalysis | Caffeine | CsBa
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Loading RightsJournal of Hazardous Materials, ISSN 0304-3894, 07/2014, Volume 277, pp. 69 - 75
The occurrence and seasonal variation of 50 pharmaceuticals and personal care products (PPCPs) in a wastewater treatment plant (WWTP) in Xiamen, China was...
Seasonal variations | Removal efficiencies | Wastewater | Pharmaceuticals and personal care products (PPCPs) | Occurrence | SEWAGE-TREATMENT PLANTS | CONTAMINATION | ELIMINATION | PPCPS | INDUSTRIAL | RECEIVING WATERS | ENVIRONMENTAL SCIENCES | ENDOCRINE DISRUPTORS | ENGINEERING, CIVIL | ENGINEERING, ENVIRONMENTAL | DRINKING-WATER | SLUDGE | HORMONES | Pharmaceutical Preparations - isolation & purification | Water Pollutants, Chemical - isolation & purification | Waste Water - chemistry | China | Waste Water - analysis | Seasons | Pharmaceutical Preparations - analysis | Water Pollutants, Chemical - analysis | Water Purification - methods | Household Products | Toiletries | Sewage | Purification | Water treatment plants | Effluents | Transformations | Wastewater treatment | Influents | Pharmaceuticals
Seasonal variations | Removal efficiencies | Wastewater | Pharmaceuticals and personal care products (PPCPs) | Occurrence | SEWAGE-TREATMENT PLANTS | CONTAMINATION | ELIMINATION | PPCPS | INDUSTRIAL | RECEIVING WATERS | ENVIRONMENTAL SCIENCES | ENDOCRINE DISRUPTORS | ENGINEERING, CIVIL | ENGINEERING, ENVIRONMENTAL | DRINKING-WATER | SLUDGE | HORMONES | Pharmaceutical Preparations - isolation & purification | Water Pollutants, Chemical - isolation & purification | Waste Water - chemistry | China | Waste Water - analysis | Seasons | Pharmaceutical Preparations - analysis | Water Pollutants, Chemical - analysis | Water Purification - methods | Household Products | Toiletries | Sewage | Purification | Water treatment plants | Effluents | Transformations | Wastewater treatment | Influents | Pharmaceuticals
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Loading RightsWater Science and Technology, ISSN 0273-1223, 2009, Volume 59, Issue 5, pp. 945 - 955
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Loading RightsScience of the Total Environment, ISSN 0048-9697, 12/2019, Volume 697, p. 134104
Information on nanomaterial interactions with co-contaminants, including their influence on toxicity and environment fate in aquatic environment is rather...
Carbon nanotubes | PPCPs | Toxicity | Fate | Algae
Carbon nanotubes | PPCPs | Toxicity | Fate | Algae
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Loading RightsChemosphere, ISSN 0045-6535, 08/2019, Volume 228, pp. 521 - 527
To develop an efficient and reusable heterogeneous Fenton-like catalyst is a great challenge for its application in practical water treatment. Effective oxygen...
Fenton-like reaction | PPCPs | CeO2 | Iron oxide | Sulfamerazine
Fenton-like reaction | PPCPs | CeO2 | Iron oxide | Sulfamerazine
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Loading RightsWater Research, ISSN 0043-1354, 06/2018, Volume 137, pp. 242 - 250
Degradation of three lipid regulators, i.e., gemfibrozil, bezafibrate and clofibric acid, by a UV/chlorine treatment was systematically investigated. The...
Lipid regulator | UV/chlorine | Water treatment | Chlorine oxide radical | Reactive chlorine species | Advanced oxidation process | PERSONAL CARE PRODUCTS | PHARMACEUTICALS | WATER RESOURCES | PPCP DEGRADATION | BY-PRODUCTS | ENVIRONMENTAL SCIENCES | REMOVAL | ADVANCED OXIDATION PROCESSES | ENGINEERING, ENVIRONMENTAL | KINETICS | PHOTOLYSIS | WATER | Gemfibrozil | Index Medicus
Lipid regulator | UV/chlorine | Water treatment | Chlorine oxide radical | Reactive chlorine species | Advanced oxidation process | PERSONAL CARE PRODUCTS | PHARMACEUTICALS | WATER RESOURCES | PPCP DEGRADATION | BY-PRODUCTS | ENVIRONMENTAL SCIENCES | REMOVAL | ADVANCED OXIDATION PROCESSES | ENGINEERING, ENVIRONMENTAL | KINETICS | PHOTOLYSIS | WATER | Gemfibrozil | Index Medicus
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Loading RightsENVIRONMENTAL SCIENCE & TECHNOLOGY, ISSN 0013-936X, 06/2019, Volume 53, Issue 12, pp. 6945 - 6953
The conversion of excess ammonia N into harmless N-2 is a primary challenge for wastewater treatment. We present here a method to generate ClO center dot...
TRANSFORMATION | OXIDATION | ENVIRONMENTAL SCIENCES | ACID | ACTIVE CHLORINE | ENGINEERING, ENVIRONMENTAL | ROLES | PHOTODECOMPOSITION | SNO2 | PPCP DEGRADATION | NITROGEN REMOVAL | UV/CHLORINE
TRANSFORMATION | OXIDATION | ENVIRONMENTAL SCIENCES | ACID | ACTIVE CHLORINE | ENGINEERING, ENVIRONMENTAL | ROLES | PHOTODECOMPOSITION | SNO2 | PPCP DEGRADATION | NITROGEN REMOVAL | UV/CHLORINE
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Loading RightsChemosphere, ISSN 0045-6535, 2008, Volume 73, Issue 8, pp. 1151 - 1161
In the aquatic environment, pharmaceuticals have been widely found. Among them, carbamazepine and diclofenac were detected at the highest frequency. To...
PPCP | Activated sludge | Micropollutant | Trace pollutant | Xenobiotic | SEWAGE-TREATMENT PLANTS | PERSONAL CARE PRODUCTS | MEMBRANE BIOREACTOR | AQUATIC ENVIRONMENT | ENVIRONMENTAL SCIENCES | PHARMACEUTICALLY ACTIVE COMPOUNDS | CLOFIBRIC ACID | DRUG DICLOFENAC | CHROMATOGRAPHY-MASS SPECTROMETRY | DRINKING-WATER | SOLID-PHASE EXTRACTION | Sewage - chemistry | Diclofenac - isolation & purification | Carbamazepine - analysis | Ecotoxicology | Humans | Diclofenac - toxicity | Animals | Diclofenac - analysis | Refuse Disposal | Carbamazepine - metabolism | Water - chemistry | Carbamazepine - toxicity | Carbamazepine - isolation & purification | Diclofenac - metabolism | Water, Underground | Sewage | Purification | Water treatment plants | Metabolites | Carbamazepine | Index Medicus
PPCP | Activated sludge | Micropollutant | Trace pollutant | Xenobiotic | SEWAGE-TREATMENT PLANTS | PERSONAL CARE PRODUCTS | MEMBRANE BIOREACTOR | AQUATIC ENVIRONMENT | ENVIRONMENTAL SCIENCES | PHARMACEUTICALLY ACTIVE COMPOUNDS | CLOFIBRIC ACID | DRUG DICLOFENAC | CHROMATOGRAPHY-MASS SPECTROMETRY | DRINKING-WATER | SOLID-PHASE EXTRACTION | Sewage - chemistry | Diclofenac - isolation & purification | Carbamazepine - analysis | Ecotoxicology | Humans | Diclofenac - toxicity | Animals | Diclofenac - analysis | Refuse Disposal | Carbamazepine - metabolism | Water - chemistry | Carbamazepine - toxicity | Carbamazepine - isolation & purification | Diclofenac - metabolism | Water, Underground | Sewage | Purification | Water treatment plants | Metabolites | Carbamazepine | Index Medicus
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Loading RightsScience of the Total Environment, ISSN 0048-9697, 11/2015, Volume 532, pp. 398 - 403
Fluoroquinolone antibiotics (FQs) are important drugs used in human and veterinary medicine. Their detection in natural waters and waste water treatment...
Antibiotics in wastewater | Fluoroquinolone degradation | Titanium oxide nanoparticles | Ofloxacin | PPCP contamination
Antibiotics in wastewater | Fluoroquinolone degradation | Titanium oxide nanoparticles | Ofloxacin | PPCP contamination
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Loading RightsChemical Engineering Journal, ISSN 1385-8947, 03/2018, Volume 336, pp. 595 - 601
In this study, the radiation-induced activation of peroxymonosulfate (PMS) was investigated for the degradation of carbamazepine (CBZ), and compared with...
Activation | PPCPs | Peroxymonosulfate | Sulfate radicals | Carbamazepine | Radiation | OZONATION | CARE PRODUCTS PPCPS | ORGANIC-MATTER | ENHANCED BIODEGRADATION | ADVANCED OXIDATION | EMERGING CONTAMINANTS | ENGINEERING, CHEMICAL | BIOLOGICAL TREATMENT | GAMMA-IRRADIATION | ENGINEERING, ENVIRONMENTAL | WASTE-WATER | PHOTOLYSIS | Gamma rays | Hydroxides | Sulfates | Radicals
Activation | PPCPs | Peroxymonosulfate | Sulfate radicals | Carbamazepine | Radiation | OZONATION | CARE PRODUCTS PPCPS | ORGANIC-MATTER | ENHANCED BIODEGRADATION | ADVANCED OXIDATION | EMERGING CONTAMINANTS | ENGINEERING, CHEMICAL | BIOLOGICAL TREATMENT | GAMMA-IRRADIATION | ENGINEERING, ENVIRONMENTAL | WASTE-WATER | PHOTOLYSIS | Gamma rays | Hydroxides | Sulfates | Radicals
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Loading RightsInternational Journal of Environmental Research and Public Health, ISSN 1661-7827, 02/2018, Volume 15, Issue 2
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Loading RightsSCIENCE OF THE TOTAL ENVIRONMENT, ISSN 0048-9697, 06/2014, Volume 484, pp. 53 - 63
The occurrence of 21 acidic pharmaceuticals, including illicit drugs, and personal care products (PPCPs) in waste, surface and drinking water and in sediments...
Drinking water | ENVIRONMENTAL RISK-ASSESSMENT | SEASONAL-VARIATION | TIME-OF-FLIGHT | TRANSFORMATION PRODUCTS | Sediments | TANDEM MASS-SPECTROMETRY | Waste water | NATURAL PARK | LC-MS/MS | ENVIRONMENTAL SCIENCES | TREATMENT-PLANT | Pharmaceuticals and personal care products (PPCPs) | Surface water | ILLICIT DRUGS | SURFACE WATERS | SPAIN
Drinking water | ENVIRONMENTAL RISK-ASSESSMENT | SEASONAL-VARIATION | TIME-OF-FLIGHT | TRANSFORMATION PRODUCTS | Sediments | TANDEM MASS-SPECTROMETRY | Waste water | NATURAL PARK | LC-MS/MS | ENVIRONMENTAL SCIENCES | TREATMENT-PLANT | Pharmaceuticals and personal care products (PPCPs) | Surface water | ILLICIT DRUGS | SURFACE WATERS | SPAIN
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Loading RightsScience of the Total Environment, ISSN 0048-9697, 10/2017, Volume 596-597, pp. 303 - 320
In recent years, many of micropollutants have been widely detected because of continuous input of pharmaceuticals and personal care products (PPCPs) into the...
Personal care products | PPCPs | Contaminants of emerging concern (CECs) | Removal efficiency | Water quality | Pharmaceuticals | SEWAGE-TREATMENT PLANT | ENDOCRINE-DISRUPTING CHEMICALS | ENVIRONMENTAL RISK-ASSESSMENT | MUNICIPAL WASTE-WATER | TANDEM MASS-SPECTROMETRY | ENVIRONMENTAL SCIENCES | POWDERED ACTIVATED CARBON | NEW-YORK-STATE | EMERGING ORGANIC CONTAMINANTS | ADVANCED OXIDATION PROCESSES | SURFACE WATERS | Drinking water | Toiletries | Sewage | Purification | Metabolites | Personal care industry
Personal care products | PPCPs | Contaminants of emerging concern (CECs) | Removal efficiency | Water quality | Pharmaceuticals | SEWAGE-TREATMENT PLANT | ENDOCRINE-DISRUPTING CHEMICALS | ENVIRONMENTAL RISK-ASSESSMENT | MUNICIPAL WASTE-WATER | TANDEM MASS-SPECTROMETRY | ENVIRONMENTAL SCIENCES | POWDERED ACTIVATED CARBON | NEW-YORK-STATE | EMERGING ORGANIC CONTAMINANTS | ADVANCED OXIDATION PROCESSES | SURFACE WATERS | Drinking water | Toiletries | Sewage | Purification | Metabolites | Personal care industry
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