Your search keyword '"Lead Chromate"' showing total 329 results

1. Boosting photocatalytic water oxidation on lead chromate through crystal facet engineering

Author

Jiang, Wenchao, Ni, Chenwei, Xiao, Yejun, Zhao, Yue, Han, Chu, Wu, Xuan, Zhang, Chengbo, Chi, Haibo, Li, Rengui, and Li, Can

Published

2025

2. Evidence of turmeric adulteration with lead chromate across South Asia

Author

Forsyth, Jenna E., Mistree, Dinsha, Nash, Emily, Angrish, Manyu, and Luby, Stephen P.

Published

2024

3. 微波灰化-高效液相色谱-电感耦合等离子 体质谱(ICP-MS)法测定茶叶中的铬酸铅.

Author

刘欠, 吴绮莉, and 潘春秀

Abstract

Copyright of Chinese Journal of Inorganic Analytical Chemistry / Zhongguo Wuji Fenxi Huaxue is the property of Beijing Research Institute of Mining & Metallurgy Technology Group and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

4. Making the invisible visible: Developing and evaluating an intervention to raise awareness and reduce lead exposure among children and their caregivers in rural Bangladesh

Author

Jahir, Tania, Pitchik, Helen O, Rahman, Mahbubur, Sultana, Jesmin, Shoab, AKM, Huda, Tarique Md Nurul, Byrd, Kendra A, Islam, Saiful, Yeasmin, Farzana, Baker, Musa, Yeasmin, Dalia, Nurunnahar, Syeda, Luby, Stephen P, Winch, Peter J, and Forsyth, Jenna E

Subjects

Biological Sciences, Environmental Sciences, Chemical Sciences, Clinical Research, Prevention, Rural Health, Behavioral and Social Science, Health Services, Clinical Trials and Supportive Activities, Mental Health, Pediatric, Prevention of disease and conditions, and promotion of well-being, 3.1 Primary prevention interventions to modify behaviours or promote wellbeing, Bangladesh, Caregivers, Child, Child Development, Child, Preschool, Female, Humans, Infant, Lead, Pregnancy, Rural Population, Prenatal lead exposure, Child lead exposure, Turmeric, Lead chromate, Lead-soldered cans, Nutrition, Health education and promotion, Cluster randomized trial, Toxicology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

Lead exposure is harmful at any time in life, but pre-natal and early childhood exposures are particularly detrimental to cognitive development. In Bangladesh, multiple household-level lead exposures pose risks, including turmeric adulterated with lead chromate and food storage in lead-soldered cans. We developed and evaluated an intervention to reduce lead exposure among children and their caregivers in rural Bangladesh. We conducted formative research to inform theory-based behavioral recommendations. Lead exposure was one of several topics covered in the multi-component intervention focused on early child development. Community health workers (CHWs) delivered the lead component of the intervention during group sessions with pregnant women and mother-child dyads (

Published

2021

5. The effect of ultrasound on the application properties of organic pigment (red 48:1) and inorganic pigments (lemon yellow and orange yellow lead chromate)

Author

Farjad Rahmani and Rajabali Ebrahimi

Subjects

Ultrasound, Red pigment, Lead chromate, Turbidity, Coating, Chemistry, QD1-999

Abstract

In the recent years, the pigment industry, as a mother industry in the field of color matching, has had many applications and has greatly contributed to the progress of other industries such as textile, dyeing, glazing, construction and industrial paints, compounding, etc. For more optimal use in different industries, paying enough attention to the physical and chemical properties of pigments would be necessary. One of the most effective research projects in this field is the investigation of the effect of ultrasound radiation on the applied properties of pigments. In this research, by irradiating different times of ultrasound on the samples of organic pigment (red 48:1) and inorganic pigments (lemon yellow TL210 and orange yellow TM110 lead chromate) in the aqueous phase, the practical and visible effects were investigated on them. After ultrasonic irradiation on the selected pigments, some color test strips were prepared in a specialized paint laboratory, and they were tested with a spectrophotometer and a graindometer. The results of this research showed the great effect of ultrasound radiation on the reduction of the size of pigment particles and the increase of the opacity and coverage of the pigment, and also the increase of its resistance to sunlight; nevertheless, other properties such as water test, alkaline and acid test and thermal resistance test were not affected by ultrasound. Simultaneous application of dispersant with ultrasound resulted in further improvement of the mentioned properties. Based on the results of this research, paint and pigment companies might use ultrasonic radiation with appropriate probes along with different dispersants in their production line so as to increase production efficiency.

Published

2024

6. Total electron yield (TEY) detection mode Cr K-edge XANES spectroscopy as a direct method to probe the composition of the surface of darkened chrome yellow (PbCr1-xSxO4) and potassium chromate paints.

Author

Monico, Letizia, d'Acapito, Francesco, Cotte, Marine, Janssens, Koen, Romani, Aldo, Ricci, Giulia, Miliani, Costanza, and Cartechini, Laura

Subjects

*X-ray absorption near edge structure, *CHROMATES, *FLUORESCENCE yield, *X-ray fluorescence, *ACRYLIC paint, *POTASSIUM, *PAINT

Abstract

The darkening of chromate-pigments, including chrome yellows (PbCr 1-x S x O 4), is a surface phenomenon affecting late 19th-early 20th c. paintings, such as those by Van Gogh. Exploring analytical strategies that contribute to a deep understanding of darkening is therefore significant for the long-term conservation of unique masterpieces. Here, we examined the capabilities of Cr K-edge XANES spectroscopy collected at the same time in X-ray fluorescence yield (XFY) and total electron yield (TEY) detection modes to selectively study the surface composition of darkened oil paint mock-ups composed of chrome yellow (PbCr 0.2 S 0.8 O 4) or potassium chromate. By discussing advantages and drawbacks in using XFY/TEY modes in relation to XFY µ-XANES analysis from sectioned samples, we aim at assessing if TEY-XANES spectroscopy: (i) is a selective surface method to determine the abundance of different Cr-species from paint fragments; (ii) can contribute to optimize the analytical strategy by limiting time consuming sample preparation procedures; (iii) can decrease the probability of radiation damage. [ABSTRACT FROM AUTHOR]

Published

2023

7. Graphene Mediates Charge Transfer between Lead Chromate and a Cobalt Cubane Cocatalyst for Photocatalytic Water Oxidation.

Author

Jiang, Wenchao, Zhang, Lingcong, Ni, Chenwei, Shi, Ming, Zhao, Yue, Deng, Yuting, Chi, Haibo, Chen, Ruotian, Wang, Xiuli, Li, Rengui, and Li, Can

Subjects

*OXIDATION of water, *LEAD, *CHARGE transfer, *PHOTOCATALYTIC oxidation, *CHROMATES, *GRAPHENE

Abstract

The interfacial barrier of charge transfer from semiconductors to cocatalysts means that the photogenerated charges cannot be fully utilized, especially for the challenging water oxidation reaction. Using cobalt cubane molecules (Co4O4) as water oxidation cocatalysts, we rationally assembled partially oxidized graphene (pGO), acting as a charge‐transfer mediator, on the hole‐accumulating {−101} facets of lead chromate (PbCrO4) crystal. The assembled pGO enables preferable immobilization of Co4O4 molecules on the {−101} facets of the PbCrO4 crystal, which is favorable for the photogenerated holes transferring from PbCrO4 to Co4O4 molecules. The surface charge‐transfer efficiency of PbCrO4 was boosted by selective assembly of pGO between PbCrO4 and Co4O4 molecules. An apparent quantum efficiency for photocatalytic water oxidation on the Co4O4/pGO/PbCrO4 photocatalyst exceeded 10 % at 500 nm. This strategy of rationally assembling charge‐transfer mediator provides a feasible method for acceleration of charge transfer and utilization in semiconductor photocatalysis. [ABSTRACT FROM AUTHOR]

Published

2023

8. Usage of heavy metal-free compounds in surface coatings.

Author

Puthran, Dayanand and Patil, Dilip

Subjects

HEXAVALENT chromium, SURFACE coatings, LEAD, CADMIUM, HEAVY metals, ARSENIC, PROTECTIVE coatings

Abstract

Coatings have been used since time immemorial for decorative and protective purposes. During the initial periods, when not much information was available regarding the health impact of the raw materials, there was no thought given or restrictions put on use of any ingredients in coatings. Some of the raw materials like white lead (lead carbonate), red lead (lead oxide), hexavalent chromium compounds, and other similar compounds were being used in large quantities to get specific paint film properties. This not only affected human health but also with no effective effluent treatment contaminated soil and water resources. With progress in technology and diagnostics, lead and chromium compounds have been identified as carcinogens. The developed countries (Europe and USA) were the first to ban the use of lead in their products in the 1970s and 1980s, but due to mainly economic reasons, these are still being used in the developing countries. As the long-term health impact is too much to bear, regulations/legislations have been enacted by the governments restricting use of lead/chrome in paints. The Global Alliance to Eliminate Lead Paint (GAELP), a joint association formed under the United Nations Environment programme, and World Health Organization have agreed to phase out manufacture and sale of paints containing lead by 2020. Similar restrictions exist for many other compounds used in coatings. The article attempts to present a synopsis of the history of coatings composition, impact of the heavy metals on health and environment, and the options available for shifting to safer coating composition. As major focus of the world is on lead elimination, it has been covered in more detail, but the article also provides information on other metals, namely cadmium, chromium, mercury, arsenic, antimony, tin, nickel, manganese, cobalt, etc., and their current status. [ABSTRACT FROM AUTHOR]

Published

2023

9. Enriching Oxidation Sites-Based Facets in Lead Chromate to Boost Photoelectrochemical Sensing Response.

Author

Liu S, Zhan J, and Cai B

Abstract

A key issue in photoelectrochemical applications is the modification of the behavior of photogenerated charge barriers. An effective strategy to improve the photoelectrochemical performance of semiconductor materials is to use the facet effect to promote spatial charge separation. In this work, three different morphologies of lead chromate (PbCrO 4 ) crystals are prepared by a simple hydrothermal method that used ammonium fluoride as the structure-directing agents. Spatial separation of photogenerated electrons and holes is clearly demonstrated in the (012), (020), and (200) facets of PbCrO 4 crystals. In situ photo-deposition experiments reveal that the oxidation and reduction sites are distributed on the anisotropic (012) and (020)/(200) facets of all the PbCrO 4 crystals. PbCrO 4 synthesized with a high Pb 2+ /F - ratio with maximum exposure of (012) facet has remarkably better performance in photoelectrochemical detection of ascorbic acid compared with PbCrO 4 synthesized either without ammonium fluoride or with a low Pb 2+ /F - ratio. The photoelectrochemical detection performance correlates well with the surface photovoltage difference between the anisotropic facets. The study provides fundamental understanding of the facet-dependent activity of PbCrO 4 crystals, which will be beneficial for advancing understanding of spatial charge separation in semiconductor-based photoelectrochemical applications., (© 2025 Wiley‐VCH GmbH.)

Published

2025

10. Turmeric: A holistic Solution for Biochemical malfunction

Author

Badmanaban, R., Saha, Dhananjoy, Sen, Dhrubo J., Biswas, Arpita, Mandal, Supradip, and Basak, Susmita

Published

2021

11. Tuning the Anisotropic Facet of Lead Chromate Photocatalysts to Promote Spatial Charge Separation.

Author

Jiang, Wenchao, Ni, Chenwei, Zhang, Lingcong, Shi, Ming, Qu, Jiangshan, Zhou, Hongpeng, Zhang, Chengbo, Chen, Ruotian, Wang, Xiuli, Li, Can, and Li, Rengui

Subjects

*PHOTOCATALYSTS, *SURFACE photovoltage, *CHROMATES, *ARTIFICIAL photosynthesis, *ANISOTROPIC crystals, *OXIDATION of water

Abstract

A crucial issue in artificial photosynthesis is how to modulate the behaviors of photogenerated charges of semiconductor photocatalysts. Here, using lead chromate (PbCrO4) as an example, we conducted the morphology tailoring from parallelepiped (p‐PbCrO4) to truncated decahedron (t‐PbCrO4) and elongated rhombic (r‐PbCrO4), resulting in exposed anisotropic facets. The spatial separation of photogenerated charges closely correlates to the anisotropic facets of crystals, which can only be realized for t‐PbCrO4 and r‐PbCrO4. The charge‐separation efficiencies exhibit a quasilinear relation with the surface photovoltage difference between anisotropic facets. The r‐PbCrO4 gives an apparent quantum efficiency of 6.5 % at 500 nm for photocatalytic water oxidation using Fe3+ ions as electron acceptors. Moreover, the oxidation reverse reaction from Fe2+ to Fe3+ ions was completely blocked with ∼100 % of Fe3+ conversion achieved on the anisotropic PbCrO4 crystals. [ABSTRACT FROM AUTHOR]

Published

2022

12. Rebuttal to "Reply to road markings and microplastics..." by Järlskog et al.

Author

Burghardt, Tomasz E. and Pashkevich, Anton

Subjects

*ROAD markings, *GEL permeation chromatography, *MICROPLASTICS, *CHROMATES

Abstract

A rebuttal to "Reply to road markings and microplastics- a critical literature review" by Järlskog et al. is necessary because authors of the "Reply..." simultaneously agree with the major issues raised in the review and try to discredit it through presenting a different perspective; thus, clarifications of some key issues are due. In response to "binders derived from, e.g., modified rosin oils are still polymers" ("Reply...", p. 3), to confirm our claim that such materials are not necessarily polymeric, we are providing a Gel Permeation Chromatography spectrum of an esterified rosin designed for the use as a binder in thermoplastic road markings. Hence, while the value of the "Reply..." is in highlighting differences in definitions, it is unfortunate that no new knowledge about microplastics originating from road markings was provided and none of the multiple research needs and uncertainties were clarified. [ABSTRACT FROM AUTHOR]

Published

2024

13. Increased urine chromium concentrations in a worker exposed to lead chromate due to medicinal herb intake

Author

Pere Sanz-Gallen, Beatriz Calvo-Cerrada, Gabriel Martí-Amengual, Marisa Ruiz, Eva Marín, and Anselmo López-Guillén

Subjects

hexavalent chromium, lead chromate, occupational risks, occupational medicine, medicinal herbs, Industrial safety. Industrial accident prevention, T55-55.3, Industrial hygiene. Industrial welfare, HD7260-7780.8

Abstract

Background: Hexavalent chromium compounds are sensitizers of the skin and lung. Chronic exposure to hexavalent chromium compounds is associated with respiratory effects and ulceration and perforation of the nasal septum. Such compounds are also considered carcinogens of the lung and nasal and paranasal sinus. Objectives: To demonstrate the importance of studying occupational and non-occupational exposure when assessing the concentration of substances in the urine. Case study: A study was conducted of environmental chromium concentrations in the workplace. In addition, an occupational medical examination was performed, recording activities inside and outside the workplace, eating habits, blood lead and urine chromium at the beginning and end of the workday. Results: One worker exposed to lead chromate presented high chromium concentrations in urine (up to 62 µg/l before the working day and 52 µg/l at the end of the working day). Environmental chromium concentrations in the workplace were below 0.25 µg/m3. In view of the results, a full study was conducted of the patient’s habits outside work. He reported having bought a kilo of a medicinal herb infusion at a street market three weeks previously. The concentration of total chromium in the prepared infusion was 12000 µg/l. The patient stopped consuming the medicinal herb. Subsequently, the urine chromium analysis was below 0.5 µg/l. Discussion and Conclusions: This case is interesting because it demonstrates that the consumption of medicinal herbs can interfere with biological monitoring of workers exposed to hexavalent chromium compounds. This may give rise to confusion and can also create legal problems for companies and workers. It is important to provide advice to workers and to investigate their habits outside work, especially when there is a discrepancy between environmental and biological values. In this case, the increase in urinary chromium is due to the consumption of medicinal herbs.

Published

2021

14. Determining the authenticity of turmeric

Author

N. L. Vostrikova, M. Yu. Minaev, and K. G. Chikovani

Subjects

turmeric, metals, chromium, lead chromate, dna, falsification of composition, Food processing and manufacture, TP368-456

Abstract

The paper examines the problem of the composition instability in the ready ground spice, turmeric. Analysis of the prevalent methods for turmeric adulteration and substances used for these purposes is given. The visual assessment of color tints of the turmeric root, spices containing it and chemical dyes based on chromium salts is presented. The studies on determination of the lead and chromium content were carried out to study the content of these metals and test the hypothesis of using lead chromate as a dye in adulteration of turmeric. Using the method of electrothermal atomic absorption spectroscopy, it was found that the lead content in the analyzed turmeric samples varied from 1.72 ± 0.58 to 5.03 ± 1.80 mg/kg, while the chromium content was in a range of 5.56 ± 0.85 to 16.15 ± 2.32 mg/kg. As a result of species specific PCR, wheat DNA was revealed in all purchased samples of ground turmeric. The levels of the main raw material replacement were established, which were 0.14% to 14.95% with the correlation coefficient close to 100%; efficiency of the reaction was 1.95, which was 97.5% when expressed as percentage. These levels of an undeclared allergen in the product composition can cause a serious allergic reaction. The authors tested the hypothesis of introduction of sodium and potassium salts for correction of the color spectrum in the ready spice and its correspondence to the natural color within the color spectrum of turmeric. As a result of the complex study of the spice composition, quite high values of chromium were found, presumably not only from the lead chromate compound but also from chromic acid salts, as the high level of potassium that significantly exceeded the native content of this element was found.

Published

2021

15. Reductions in spice lead levels in the republic of Georgia: 2020–2022.

Author

Forsyth, Jenna E., Akhalaia, Khatuna, Jintcharadze, Mariami, Nash, Emily, Sharov, Petr, Temnikova, Alena, and Elmera, Christlee

Subjects

*SPICES, *SPICE industry, *LEAD poisoning, *BUSINESSPEOPLE, *CITIES & towns, *CINNAMON

Abstract

Spice adulteration using yellow lead chromate-based pigments has been documented as a growing global health concern. Spices from the Republic of Georgia with extremely high levels of lead, up to an order of magnitude higher than any other spices worldwide, have been implicated as sources of child lead poisoning. The objectives of this study were to 1) evaluate lead concentrations in spices sampled across the country of Georgia between 2020 and 2022, and 2) assess factors associated with spice adulteration, specifically the role of spice quality and regulatory enforcement. Spice samples were collected from 29 cities nationwide. The most populous cities were selected in each administrative region as well as those of importance to the spice supply chain. Sampling was carried out at the largest spice bazaars in each city. The regions of Adjara and Imereti were the focus of qualitative interviews conducted in 2021 with key businesspeople selling spices with very high and low levels of lead. The same cities and bazaars were visited at each of three sampling periods between 2020 and 2022. In total, 765 spice samples were collected. Lead concentrations in spices decreased over time, with a maximum of 14,233 μg/g in 2020 down to 36 μg/g in the final sampling round of 2022. A logistic regression determined that sampling round, region and spice type were associated with elevated lead in samples. Samples from Adjara and those containing marigold had the highest lead levels. Interviews with eighteen prominent spice vendors revealed difficulties sourcing sufficient quantities of high quality, brightly colored marigold, and concerns about adulteration. Interviews with two authorities from the National Food Authority highlighted the increased attention on regulating lead in spices since 2018. Continued monitoring and periodic regulatory enforcement may adequately disincentivize further adulteration with lead chromate in the spice industry in Georgia. • Changes in nationwide spice lead levels are assessed in the Republic of Georgia. • Incentives driving lead chromate adulteration of spices are assessed. • Spice lead levels varied by spice type and region. • Spice lead levels decreased nationwide between 2020 and 2022. • Environmental contamination may contribute to spice lead levels above regulatory limits. [ABSTRACT FROM AUTHOR]

Published

2024

16. Safety concerns of lead chromate in enamel paints: A study based on the Sri Lankan enamel paints industry after the lead paint regulatory enforcement.

Author

Lakmini, M. C. and Mahanama, K. R. R.

Subjects

PAINT, CHROMATES, ENAMEL & enameling, PAINT industry, PAINT manufacturing, LEAD industry

Abstract

Although lead (Pb) paint testing has been carried out in a large number of studies in Sri Lanka, little work appears to have been done to investigate the chromium (Cr) levels, variation of Pb and Cr levels through different production batches of paint manufacturers and the possible sources of unusually higher Pb and Cr levels in paints. Thirty-six enamel paints manufactured after the lead paint regulatory enforcement, were randomly purchased from six popular brands in Sri Lanka to assess their Pb and Cr levels. Heavy metals in liquid paints were acid digested for the analysis by flame atomic absorption spectrometry (FAAS). From the thirty-six paints analysed (six colours from six brands) one yellow and one green paint showed highest Pb and Cr levels. Reported Pb levels in yellow and green paints were 11545 ± 6 ppm and 4060 ± 9 ppm and Cr levels were 2681 ± 2 ppm and 960 ± 7 ppm, respectively. These yellow and green paints were labelled as safe although they exceeded the Pb regulatory limit. Pb and Cr in the other 34 samples were below Sri Lankan regulatory limits. For paints with both Pb and Cr, Pb and Cr mole ratio was 1.079:1, suggesting the possible presence of lead chromate (PbCrO4) in certain paints although the manufactured paints adhered to safety standards. Batch-wise manufacturing variation was also reported. Thus, formulation of national policies and their proper implementation is necessary for manufacturing safe paints in Sri Lanka. [ABSTRACT FROM AUTHOR]

Published

2021

17. Cytogenetic Study of Non-Permitted Food Dye-Lead Chromate in Swiss Albino Mice

Author

Chakravarty, Geetanjali, Sharma, Shipra, Srivastava, Preeti, and Saini, Yashoda

Published

2017

18. Chromosomes as the Carriers of Heredity

Author

Wall, Wilson John and Wall, Wilson John

Published

2016

19. Finale: Color in Foods, Photochemistry, Photoluminescence, Pharmaceuticals, Fireworks, Fun, and the Future

Author

Orna, Mary Virginia and Orna, Mary Virginia

Published

2013

20. Introduction

Author

Srinivasan, Sundaram, Seshan, Raghavan, Sundaram, S., and Raghavan, P.S.

Published

2011

21. Gildings from Andalusia: Materials used in different types of artworks along centuries.

Author

Perez-Rodriguez, Jose Luis, Robador, Maria Dolores, Albardonedo, Antonio, and Duran, Adrian

Subjects

*MINES & mineral resources, *FOURIER transform infrared spectroscopy, *RAMAN spectroscopy, *SCANNING electron microscopy, *WORKS of art in art

Abstract

The majority of the studied artworks were altarpieces, sculptures and/or wood-based works from different periods. Non-traditional gilding techniques have been first described in this paper, such as those that employ materials as oil in the gilding on bole, glue and bole with lead white in mordant gilding, vermilion in the preparation layers; and brass gilding or those with aluminium, lead chromate, mica or corla trying to imitate the golden hue in restoration or repaint processes. For the determination of the composition of the different gilded layers, spectroscopic techniques, such as FTIR and micro-Raman, and SEM-EDX elemental chemical analyses were successfully used. [ABSTRACT FROM AUTHOR]

Published

2018

22. High-efficient recovery of chromium (VI) with lead sulfate.

Author

Peng, Hao, Guo, Jing, Li, Bing, Liu, Zuohua, and Tao, Changyuan

Subjects

LEAD compounds, PRECIPITATION (Chemistry), CHROMIUM removal (Groundwater purification), CORROSION & anti-corrosives, HEAVY metal content of water

Abstract

Lead sulfate was chose to precipitate chromium (VI) based on the difference of the solubility between lead sulfate and lead chromate. The effects of parameters on the precipitation efficiency of chromium including reaction temperature, reaction time, and initial pH of solution and dosage of lead sulfate were investigated. Results showed that the initial pH of solution and dosage of lead sulfate had big influence while reaction time and reaction temperature had little. The concentration of chromium (VI) could reduce from 0.2 mol/L to 0.0015 mmol/L (0.08 mg/L) at pH value of 13.90 and the dosage of lead sulfate as n (PbSO 4 )/ n (K 2 CrO 4 ) = 4. The XRD result of precipitation was consistent with the result predicted by Visual MINTEQ software and the precipitation was composed of PbCrO 4 , PbSO 4 and other oxides containing lead. Otherwise, XRF and ICP were used to analyze the residual lead (II) in the filtrate and results indicated that the concentration of Pb (II) in the filtrate was acceptable. [ABSTRACT FROM AUTHOR]

Published

2018

23. Turmeric: A holistic Solution for Biochemical malfunction

Author

Dhananjoy Saha, Supradip Mandal, R Badmanaban, Susmita Basak, Arpita Biswas, and Dhrubo Jyoti Sen

Subjects

Traditional medicine, medicine.drug_class, food and beverages, Antimicrobial, Anti-inflammatory, Rhizome, Bioavailability, Lead Chromate, chemistry.chemical_compound, chemistry, medicine, Curcumin, Pharmacology (medical), Curcuminoid, Anti bacterial, Pharmacology, Toxicology and Pharmaceutics (miscellaneous)

Abstract

Most of us know turmeric (Curcuma longa) as the vibrant orange powder located in the spice section between thyme and vanilla beans. And many of us use turmeric root powder in our cooking, particularly if we have an affinity for preparing Indian–inspired dishes. Similar to the root–like component of its cousin ginger, turmeric has been a staple of Indian food traditions for millennia and has a long history of healing use (over 4000 years) in Ayurvedic, Traditional Chinese, and Siddhic medicinal traditions. Turmeric’s role in Hindu devotional and sacred ceremonies is alluded to by one of its Sanskrit names: Kanchani, the “Golden Goddess,” perhaps so called because its beautiful golden hue generously bestows healing to a wide range of ailments (Gallant, n.d.). Indeed, traditional Ayurvedic use includes turmeric as healing agent for skin abrasions, GI tract inflammation, aches and pains, and liver disorders, while modern research confirms the anti–bacterial, anti–inflammatory, and antioxidant properties of turmeric. The characteristic golden hue is produced by curcumin, the constituent in turmeric most isolated and studied by scientists, but the whole herb is used in herbal traditions and has also been the subject of many favorable studies. Turmeric’s Herbal Actions: Antioxidant and Anti–Inflammatory: Antioxidants scavenge free radicals and help to reduce or prevent damage and inflammation caused by free radicals, and anti–inflammatory agents block enzymes that promote inflammation and pain. Turmeric is often used in an Ayurvedic approach to reduce inflammation of the throat and tonsils, and as an anti–inflammatory herb for many other aches and pains. You will find that a number of culinary herbs also have antioxidant and anti–inflammatory properties, including sage, ginger, and garlic. Antimicrobial: Antimicrobial herbs inhibit the growth of pathogens like bacteria, viruses, and fungi. Cholerectic: Cholerectics stimulate production of bile, thereby supporting digestion. In Ayurveda, turmeric is a warming herb that kindles digestive fire, or agni. Like other bitter–flavored herbs that stimulate bile production, turmeric is used to promote digestion and alleviate symptoms in the GI tract. Turmeric offers such a dynamic array of health benefits that it’s even being studied in regards to its potential effect on serious diseases like cancer, Alzheimer’s, and heart disease. Cardiac specific benefits are its effects on cholesterol, triglycerides, and blood sugar. While studies do not show that it would be a good substitute for cholesterol and diabetes medications, long–term use may help reduce the amount of other medications used in a treatment level. How to Use Turmeric: Topical and External Use: Because of its antibacterial properties, when combined with a little salt and mixed together as a paste, turmeric can be applied to the skin in response to abrasions and swelling. This remedy is also used to help resolve bruises. Gargling with salt water is often thought to help relieve a sore throat. But turmeric, when paired with salt, has the potential to be even more effective! You can find turmeric at this link or at your local grocery store. Gargle With Turmeric and Salt: Ingredients: A pinch or two of turmeric, A pinch or two of salt, Add to warm water and gargle as you would regular salt water. Internal Use: The medicinal properties of turmeric may not be absorbed well due to its rapid metabolism in the liver and intestines unless it is consumed with black pepper. In a validating example of the time–tested concept of herbal catalysts (herbs that enhance the activity of other herbs), it turns out that the piperine in black pepper enhances the bioavailability of the curcumin in turmeric by 2000%. Whether by incorporating it into cooking or taking it as one of several herbs in a tea, turmeric is at the heart of many different remedies and continues to prove its value after thousands of years of use. One such tried and true recipe is “Golden Milk,” a traditional Ayurvedic concoction. Here is our take on this age–old recipe, with the addition of black pepper for enhanced curcumin bioavailability. This yummy, warming drink is delicious in the winter and can be served room temperature or slightly warmed if desired. turmeric for health – golden milk Turmeric Recipes: Traditional instructions recommend making a turmeric paste first, which can be spread on toast or added to other dishes, but you can also simply add turmeric powder into the milk. Turmeric Paste: Ingredients: ¼ cup ground turmeric, ½ cup water Directions: Combine turmeric powder and water in a saucepan. Simmer until mixture forms a thick paste. Let cool, then store in fridge. turmeric for health – golden milk Golden Milk: Serves one Ingredients: 1 cup unsweetened coconut, rice, or almond milk, ¼ – 1/2 teaspoon turmeric paste (or just add powder), 1 teaspoon coconut oil, Few shakes of ground black pepper, Generous dash of vanilla, Raw local honey or maple syrup to taste, Sprinkle of cinnamon Directions: Place 1 cup milk with turmeric paste, oil, black pepper, vanilla, and honey/maple syrup into a blender. Blend on high briefly until combined and foamy. Pour into cup, sprinkle with cinnamon, and serve. Safety: Turmeric eaten in food is considered safe. For some individuals, turmeric should not be used at high doses long term as overuse may cause gastrointestinal disturbances (e.g., diarrhea, nausea, ulcers) in some susceptible people Turmeric is considered contraindicated in the case of biliary tract obstruction due to potential bile–stimulating activity, and those with a history of biliary tract obstruction should gain professional advice before using turmeric at therapeutic doses. Because turmeric may have antiplatelet and blood–thinning activity, individuals on blood–thinning medications should exercise caution when considering therapeutic use and speak with their healthcare professional or pharmacist prior to self–administration. For similar reasons, it is also generally advised that individuals undergoing surgery stop consuming therapeutic doses of turmeric at least two weeks prior to their procedure. Eating foods with turmeric during pregnancy is generally considered safe, however turmeric should not be taken in high doses by pregnant women due to its potential emmenagogic effects. Lastly, one small study concluded that consumption of supplemental doses of turmeric can significantly increase urinary oxalate excretion which may subsequently increase risk of kidney stone formation in susceptible individuals.

Published

2021

24. Major Types of Soil Pollutants

Author

Mirsal, Ibrahim A. and Mirsal, Ibrahim A.

Published

2008

25. Food safety policy enforcement and associated actions reduce lead chromate adulteration in turmeric across Bangladesh.

Author

Forsyth, Jenna E., Baker, Musa, Nurunnahar, Syeda, Islam, Shariful, Islam, M. Saiful, Islam, Tauhidul, Plambeck, Erica, Winch, Peter J., Mistree, Dinsha, Luby, Stephen P., and Rahman, Mahbubur

Subjects

*TURMERIC, *FOOD safety, *LEAD exposure, *NUTRITION policy, *CHROMATES, *ADULTERATIONS

Abstract

Turmeric adulterated with lead chromate pigment has been previously identified as a primary source of lead exposure in Bangladesh. This study assesses the impact of a multi-faceted intervention between 2017 and 2021 to reduce lead-tainted turmeric in Bangladesh. The intervention involved: i) disseminating findings from scientific studies via news media that identified turmeric as a source of lead poisoning, ii) educating consumers and businesspeople about the risks of lead chromate in turmeric via public notices and face-to-face meetings, and iii) collaborating with the Bangladesh Food Safety Authority to utilize a rapid lead detection technology to enforce policy disallowing turmeric adulteration. Before and after the intervention, evidence of lead chromate turmeric adulteration was assessed at the nation's largest turmeric wholesale market and at turmeric polishing mills across the country. Blood lead levels of workers at two mills were also assessed. Forty-seven interviews were conducted with consumers, businesspeople, and government officials to assess changes in supply, demand, and regulatory capacity. The proportion of market turmeric samples containing detectable lead decreased from 47% pre-intervention in 2019 to 0% in 2021 (n = 631, p < 0.0001). The proportion of mills with direct evidence of lead chromate adulteration (pigment on-site) decreased from 30% pre-intervention in 2017 to 0% in 2021 (n = 33, p < 0.0001). Blood lead levels dropped a median of 30% (IQR: 21–43%), while the 90th percentile dropped 49% from 18.2 μg/dL to 9.2 μg/dL 16 months after the intervention (n = 15, p = 0.033). Media attention, credible information, rapid lead detection tools and swift government action to enforce penalties all contributed to the intervention's success. Subsequent efforts should evaluate if this is an example of an effective intervention that can be replicated to reduce lead chromate adulteration of spices globally. • The impact of an intervention to reduce lead in turmeric in Bangladesh is assessed. • The percent of market turmeric samples containing lead decreased from 47% to 0%. • The percent of mills adding lead chromate to turmeric decreased from 30% to 0%. • Turmeric mill worker blood lead levels dropped a median of 30% (IQR: 21–43%). • Future research should evaluate if this intervention can be replicated elsewhere. [ABSTRACT FROM AUTHOR]

Published

2023

26. Contrast-Enhanced MRI and Micro-CT Adopted for Evaluation of a Lipid-Lowering and Anticoagulant Herbal Epimedium-Derived Phytoestrogenic Extract for Prevention of Steroid-Associated Osteonecrosis

Author

Qin, Ling, Zhang, Ge, Sheng, Hui, Griffth, James F., Yeung, Ka Wai, Leung, Kwok-Sui, Qin, Ling, editor, Genant, Harry K., editor, Griffith, James F., editor, and Leung, Kwok Sui, editor

Published

2007

27. Contamination of Hydrographic Bassins in Uranium Mining Areas of Portugal

Author

Carvalho, Fernando P., Oliveira, João M., Madruga, Maria J., Lopes, Irene, Libânio, Albertina, Machado, Lubélia, Merkel, Broder J., editor, and Hasche-Berger, Andrea, editor

Published

2006

28. Assessing Analytical Methods for the Rapid Detection of Lead Adulteration in the Global Spice Market

Author

Alandra M. Lopez, Carla M. Nicolini, Meret Aeppli, Stephen P. Luby, Scott Fendorf, and Jenna E. Forsyth

Subjects

pxrf, Spectrometry, X-Ray Emission, General Chemistry, icp-ms, adulteration, field, rapid detection, Lead, exposure, blood, lead chromate, colorimetry, Chromates, Environmental Chemistry, confidence, Spices, Powders, pb, Environmental Monitoring

Abstract

Lead adulteration of spices, primarily via Pb chromate compounds, has been documented globally as a growing public health concern. Currently, Pb detection in spices relies primarily on expensive and time-consuming laboratory analyses. Advancing rapid Pb detection methods, inclusive of their accuracy and precision, would improve field assessments by food safety inspectors, stakeholders, and the public in the hope of reducing Pb exposure risks at its source. Here, we present two field procedures for Pb detection: portable X-ray fluorescence analysis (pXRF) and a simple colorimetric test. We assess their efficacy to detect Pb and its chemical form in seven spice types, including powders, spice-salt mixtures, and dried roots, compared to the proven laboratory technique, inductively coupled plasma mass spectrometry (ICP-MS). Lead concentrations measured using pXRF and ICP-MS were within 5% of each other for spice powders and 24% for dried roots. By pXRF, spice samples were analyzed within collection plastic bags without preparation, resulting in a detection limit of 2 mg Pb/kg for spice powders, which is comparable to national food standards. The colorimetric test utilized here targets hexavalent chromium, making the method selective to Pb chromate adulteration assuming that this is its dominant source in spices. Color development, and thus detection, was observed when Pb concentrations exceeded approximately 5-70 mg/kg in dried turmeric roots and 1000 mg/kg in spice powders; however, it was ineffective for the spice-salt mixture. We show that pXRF analysis and a colorimetric assay provide information that may improve field decisions about Pb adulteration in a range of spice types, helping to minimize Pb exposure.

Published

2022

29. Analysis of Archaeological Objects with LMntI, a New Transportable LIBS Instrument

Author

Melessanaki, K., Mastrogiannidou, A., Chlouveraki, S., Ferrence, S. C., Betancourt, P. P., Anglos, D., Dickmann, Klaus, editor, Fotakis, Costas, editor, and Asmus, John F., editor

Published

2005

30. Detection and imaging of chrome yellow (lead chromate) in latent prints, solid residues, and minerals by laser-desorption/ionization mass spectrometry (LDI-MS).

Author

Zheng, Z., Pavlov, J., and Attygalle, A. B.

Subjects

*CHROMATES, *ELECTROSPRAY ionization mass spectrometry, *TRACE elements, *METAL stamping, *INORGANIC chemistry, *PIGMENTS

Abstract

In the past, chrome yellow (lead chromate, PbCrO4), a bright orange-red substance, has been widely used as an inorganic pigment in the production of paints, coatings, and plastics. Herein, we demonstrate that laser desorption/ionization mass spectrometry (LDI-MS) is a powerful tool for the detection of lead chromate in solid residues. In fact, lead chromate in trace amounts is easily detectable by LDI-MS even from residues left as latent prints. For example, a latent print obtained by stamping the exposed laterally cut surface of a pencil over 50 years old on an acetonitrile-moistened paper, was successfully imaged for both lead and chromate using a Synapt G2 HDMS mass spectrometer. After rastering the print with a 355nm laser beam and recording positive- and negative-ion mass spectra over the range m/z 50-1200, we generated false-color 'heat maps' (single-ion images) for 208Pb+· (m/z 207.98) and Cr2O6 -· (m/z 199.85). The heat maps matched closely with the faint visual image of the pencil imprint. Moreover, our results confirmed that lead chromate was used in the pigment coatings of old pencils. Evidently, LDI-MS imaging is an efficient procedure to survey for the presence of lead and chromate in minerals and other materials. [ABSTRACT FROM AUTHOR]

Published

2017

31. Nineteenth century chrome yellow and chrome deep from Winsor & Newton.

Author

Otero, Vanessa, Pinto, Joana V., Carlyle, Leslie, Vilarigues, Márcia, Cotte, Marine, and Melo, Maria João

Subjects

*CHROMATES, *SYNCHROTRON radiation, *PIGMENTS, *DIGITAL image processing, *MIXED crystals, *DATABASES

Abstract

The Winsor & NewtonTM(W&N) nineteenth century archive database includes digitised images of hand-written instructions and workshop notes for the manufacture of their artists’ materials. For the first time, all 183 production records for yellow lead chromate pigments were studied and evaluated. They revealed that W&N produced essentially three pigment types:lemon/palebased on mixed crystals of lead chromate and lead sulphate [Pb(Cr,S)O4];middleon pure monoclinic lead chromate [PbCrO4]; anddeepthat contains the latter admixed with basic lead chromate [Pb2CrO5]; accounting for 53, 22, and 21% of the production, respectively. Production records for primrose (4%) were also included since the formulation results in mixed crystals with a high percentage of lead sulphate, which, according to the literature, leaves it more prone to degradation. Each pigment type is characterised by only one or two main synthetic pathways; process variations reveal a systematic and thorough search for a high-quality durable product. A comparison of the chemical composition of pigment reconstructions with early W&N oil paint tubes showed that their records entitled ‘pale’ and ‘lemon’ correlated with the pigment in their tube labelledchrome yellowand, ‘middle’ and ‘deep’ with the labelchrome deep. Lemon and middle pigment formulations were made into oil paints to assess their relative photo-stability. The degradation process was followed by colorimetry and was studied by synchrotron radiation-based techniques. Based on the X-ray absorption spectroscopy data, the possibility for creating a stability index for chrome yellows is discussed. [ABSTRACT FROM PUBLISHER]

Published

2017

32. Detection of Fakes

Author

Taft, W. Stanley, Jr., Mayer, James W., Taft, W. Stanley, Jr., and Mayer, James W.

Published

2000

33. Laser Induced Breakdown Spectroscopy in the Analysis of Pigments in Painted Artworks. A Database of Pigments and Spectra

Author

Stratoudaki, T., Xenakis, D., Zafiropulos, V., Anglos, D., von Bally, Gert, editor, Fotakis, Costas, editor, Papazoglou, Theodore G., editor, and Kalpouzos, Costas, editor

Published

2000

34. Paints and Coatings

Author

Fox, Malcolm A. and Fox, Malcolm A.

Published

1999

35. The Scope and History of Electrochemical Engineering

Author

Wendt, Hartmut, Kreysa, Gerhard, Wendt, Hartmut, and Kreysa, Gerhard

Published

1999

36. Smartphone Nano-Colorimetry for On-Demand Multiplex Lead and Mercury Detection and Quantitation in Drinking Water

Author

Wei-Chuan Shih, Ibrahim Misbah, and Hoang Nguyen

Subjects

chemistry.chemical_classification, education.field_of_study, Metal ions in aqueous solution, 010401 analytical chemistry, Population, Iodide, chemistry.chemical_element, 01 natural sciences, 0104 chemical sciences, Mercury (element), Highly sensitive, Lead Chromate, chemistry, On demand, Environmental chemistry, Nano, Electrical and Electronic Engineering, education, Instrumentation

Abstract

Mobile low-cost analytical systems for the detection and quantitation of heavy metal contaminants such as lead (Pb 2+ ) and mercury (Hg 2+ ) in drinking water are critical in preventing the general population from exposure to the toxic metal ions. In this paper, we presented smartphone nano-colorimetry (SNC) as a new technique for multiplex-sensing of dissolved Pb 2+ and Hg 2+ . The sensing mechanism of SNC is based on the microscopic dark-field imaging of micro-or nanoscale sediments of yellow lead chromate (PbCrO4) and red mercury iodide (HgI2) on a glass-PDMS substrate, followed by intensity analysis to quantitatively measure the concentration of Pb 2+ and Hg 2+ in the water. We showed that SNC capable of detecting and quantitating Pb 2+ and Hg 2+ below the EPA action level for both metal ions at 15 ppb and 2 ppb, respectively. We envision that SNC will realize highly sensitive and rapid in-field quantitation of toxic heavy metal contaminants in drinking water, enable citizens to examine their water on-demand for better life-quality.

Published

2020

37. Plastics Materials

Author

Katritzky, Alan R., editor, Sabongi, Gebran J., editor, and Gooch, Jan W.

Published

1997

38. Ink Materials

Author

Katritzky, Alan R., editor, Sabongi, Gebran J., editor, and Gooch, Jan W.

Published

1997

39. 3D Architecture of Myocardial Microcirculation in Intact Rat Heart: A Study with Micro-CT

Author

Beighley, Patricia E., Thomas, Paul J., Jorgensen, Steven M., Ritman, Erik L., Sideman, Samuel, editor, and Beyar, Rafael, editor

Published

1997

40. Heavy Metals in Propolis : Practical and Simple Procedures to Reduce the Lead Level in the Brazilian Propolis

Author

Alcici, Nivia Macedo Freire, Mizrahi, Avshalom, editor, and Lensky, Yaacov, editor

Published

1997

41. Chromium Toxicokinetics

Author

O’Flaherty, E. J., Goyer, Robert A., editor, and Cherian, M. George, editor

Published

1995

42. Genotoxin-Induced Apoptosis: Implications for Carcinogenesis

Author

Patierno, Steven R., Blankenship, Lori J., Wise, John P., Xu, Jian, Bridgewater, Laura C., Manning, Francis C. R., Goldstein, Allan L., editor, Kumar, Ajit, editor, Bailey, J. Martyn, editor, and Hu, Valerie W., editor

Published

1994

43. Use of Mechanistic and Other Data in Identifying Carcinogens: A Review Based on the IARC Monographs Programme

Author

Vainio, H., Bolt, Hermann M., editor, Hellman, Björn, editor, and Dencker, Lennart, editor

Published

1994

44. C

Author

McColm, Ian J. and McColm, Ian J.

Published

1994

45. Inorganic Pigments-Other

Author

Parsons, P., Christie, C., DiRamio, D., Drummond, R., Foxton, J., Freeman, K., Hartley, J., Howie, D. S., Lourey, B. J., Renwick, F., Samios, J., Stewart, D. M., Waldie, J. M., and Willis, B.

Published

1993

46. Analytical Chemistry

Author

Hudson, John and Hudson, John

Published

1992

47. Lead and its compounds (except for lead arsenate, lead chromate and alkyl lead compounds) [BAT Value Documentation, 1989]

Author

Karl-Heinz Schaller, H.M. Bolt, Z. Myslak, and H. Valentin

Subjects

chemistry.chemical_classification, Lead Chromate, chemistry.chemical_compound, Lead (geology), Chemistry, Inorganic chemistry, Arsenate, Value (mathematics), Alkyl

Published

2019

48. Was yellow lead chromate pigment used during Middle Stone Age at Sibudu rock shelter (South Africa)?

Author

Lyn Wadley, Linda C. Prinsloo, and Marine Wojcieszak

Subjects

Archaeology, Crocoite, Lead Chromate, Pigment, chemistry.chemical_compound, Geography, chemistry, visual_art, visual_art.visual_art_medium, General Materials Science, Middle Stone Age, Chrome yellow, Spectroscopy, Rock shelter

Published

2019

49. Evidence for Degradation of the Chrome Yellows in Van Gogh's Sunflowers: A Study Using Noninvasive In Situ Methods and Synchrotron-Radiation-Based X-ray Techniques.

Author

Monico, Letizia, Janssens, Koen, Hendriks, Ella, Vanmeert, Frederik, Van der Snickt, Geert, Cotte, Marine, Falkenberg, Gerald, Brunetti, Brunetto Giovanni, and Miliani, Costanza

Subjects

*CHROME-yellow, *COMPOSITION of sunflowers, *PLANT pigments, *SYNCHROTRON radiation, *PHOTOREDUCTION

Abstract

This paper presents firm evidence for the chemical alteration of chrome yellow pigments in Van Gogh's Sunflowers (Van Gogh Museum, Amsterdam). Noninvasive in situ spectroscopic analysis at several spots on the painting, combined with synchrotron-radiation-based X-ray investigations of two microsamples, revealed the presence of different types of chrome yellow used by Van Gogh, including the lightfast PbCrO4 and the sulfur-rich PbCr1-xSxO4 (x≈0.5) variety that is known for its high propensity to undergo photoinduced reduction. The products of this degradation process, i.e., CrIII compounds, were found at the interface between the paint and the varnish. Selected locations of the painting with the highest risk of color modification by chemical deterioration of chrome yellow are identified, thus calling for careful monitoring in the future. [ABSTRACT FROM AUTHOR]

Published

2015

50. INITIAL INVESTIGATIONS OF LEAD CHROMATE TRAFFIC PAINT IN THE MIDWEST UNITED STATES: CHARTING A PATH FORWARD FOR INVESTIGATING A POTENTIAL SOURCE OF LEAD AND HEXAVALENT CHROMIUM POLLUTION

Author

Not Provided, Claire McLeod, Kinshuk Tella, Morgan Gillis, Mark Krekeker, and Kailee Gokey

Subjects

Pollution, Lead Chromate, chemistry.chemical_compound, Lead (geology), Waste management, chemistry, media_common.quotation_subject, Path (graph theory), Environmental science, Potential source, Hexavalent chromium, media_common

Published

2021