Relevant bibliographies by topics / Brilliant green dye

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Brilliant green dye'

Author: Grafiati
Published: 5 June 2025
Last updated: 1 August 2025

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Journal articles on the topic "Brilliant green dye"

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Rani, Sonia, and Sudesh Chaudhary. "Removal of brilliant green dye from wastewater using activated chickpea husk as an adsorbent." Holistic approach to environment 13, no. 1 (2022): 1–9. http://dx.doi.org/10.33765/thate.13.1.1.

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A novel adsorbent was developed from chickpea husk and its powder form was used for elimination of brilliant green dye from wastewater. Activated carbon from chickpea husk has been prepared and distinguished with a Scanning electron microscope, Brunauer-Emmett-Teller surface area analyser and a Fourier transform infrared spectroscope. Different variables, like contact time of adsorbent and adsorbate, adsorbent amount, initial concentration of dye and pH were studied to perceive their effect on adsorption of dye. The elimination percentage of brilliant green dye by using chickpea husk was found
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Yadav, A., R. Malviya, and M. K. Dwivedi. "Adsorptive Removal of Brilliant green dye from wastewater using activated CETP sludge." Research Journal of Chemistry and Environment 29, no. 3 (2025): 26–38. https://doi.org/10.25303/293rjce026038.

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Brilliant Green, a synthetic and toxic dye, is used for dyeing various materials such as paper, leather, wool and silk. This study demonstrates the efficacy of an adsorbent derived from CETP sludge for the removal of Brilliant Green dye from wastewater. Activated sludge was characterised using SEM, XRF, FTIR and BET techniques. Several parameters including the contact time, pH, adsorbent dose, initial dye concentration and temperature were optimised to assess their impact on dye adsorption. The maximum removal efficiency of Brilliant green dye reached 98.50% within 120 minutes at a concentrati
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Wang, Zheng, Lin Sheng Zhang, and Zhao Qian Jing. "Removal of Brilliant Green from Aqueous Solution Using Diatomite-Attapulgite Composite Nano-Size Adsorbent." Key Engineering Materials 419-420 (October 2009): 525–28. http://dx.doi.org/10.4028/www.scientific.net/kem.419-420.525.

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Diatomite-attapulgite composite nano-size adsorbent was prepared using natural diatomite and attapulgite through compounding, granulation, calcination and activation. After elementary characterization of this adsorbent by mercury porosimeter, batch tests were carried out to examine its removal mechanism of brilliant green. The influence of adsorbent concentration, contact time, pH, temperature and initial brilliant green concentration on the dye removal were investigated. Increase in adsorbent dosage led to increase in brilliant green adsorption due to increased number of adsorption sites. Max
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Rai, Anshuman, Vandana Sirotiya, Ankesh Ahirwar, et al. "Textile dye removal using diatomite nanocomposites: a metagenomic study in photosynthetic microalgae-assisted microbial fuel cells." RSC Advances 15, no. 11 (2025): 8300–8314. https://doi.org/10.1039/d5ra00793c.

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Márquez, Ana A., Oscar Coreño, and José L. Nava. "Removal of brilliant green tannery dye by electrocoagulation." Journal of Electroanalytical Chemistry 911 (April 2022): 116223. http://dx.doi.org/10.1016/j.jelechem.2022.116223.

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Aqeel, Khalifah, Hayfaa A. Mubarak, Joseph Amoako-Attah, et al. "Electrochemical removal of brilliant green dye from wastewater." IOP Conference Series: Materials Science and Engineering 888 (August 1, 2020): 012036. http://dx.doi.org/10.1088/1757-899x/888/1/012036.

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Nandi, B. K., A. Goswami, and M. K. Purkait. "Adsorption characteristics of brilliant green dye on kaolin." Journal of Hazardous Materials 161, no. 1 (2009): 387–95. http://dx.doi.org/10.1016/j.jhazmat.2008.03.110.

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Rehman, Rabia, Tariq Mahmud, and Maria Irum. "Brilliant Green Dye Elimination from Water UsingPsidium guajavaLeaves andSolanum tuberosumPeels as Adsorbents in Environmentally Benign Way." Journal of Chemistry 2015 (2015): 1–8. http://dx.doi.org/10.1155/2015/126036.

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The aim of this study is to check the feasibility ofPsidium guajava(Guava) leaves and peels ofSolanum tuberosum(Potato) as biosorbents in removal of Brilliant Green (BG) in batch mode. Surface analysis of biosorbents was done by FT-IR and quantitatively analyzed by Boehm titration. The removal of dye was confirmed by UV-VIS spectroscopy. Isothermal modeling was studied by using Langmuir, Freundlich, and Temkin isotherms. Various isothermal parameters for adsorption of Brilliant Green such asqm=1.075 mg/g, 1.173 mg/gΔG°=-3.397, and −2.397 KJ/mol were noted forSolanum tuberosumpeels (PP) andPsid
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Bedano, Noor Q., and Ayad F. Alkaim. "Removal of Pollutants from Aqueous Solutions by using Zinc oxide Nanoparticles." INTERNATIONAL JOURNAL OF PHARMACEUTICAL QUALITY ASSURANCE 13, no. 03 (2022): 108–22. http://dx.doi.org/10.25258/ijpqa.13.3.09.

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>This work presents a low-cost method to produce Zinc oxide (ZnO) nanostructured materials for the treatment of water polluted with model organic pollutants (e.g., brilliant green dye). Zinc oxide was prepared using the thermal solvent technique at a temperature of 37°C, at pH 6, and the samples were incinerated for one hour at a temperature of (500°C). Also, silver doped ZnO (Ag-ZnO) was prepared by photo deposition using ultraviolet rays. The photodissociation of Brilliant green dye was studied using ultraviolet rays under different conditions in the presence of Ag-ZnO, studying the effec
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Devika Krishnakumari Sunilkumar, Aishwarya Muralidharan Nair, Saraswathy Nachimuthu, and Ramalingam Ponnusamy. "Scale Up Studies on Chemical Modification of Cellulose for Dye Removal." International Journal of Scientific Research in Science and Technology 12, no. 1 (2025): 608–16. https://doi.org/10.32628/ijsrst2512157.

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Dialdehyde cellulose (DAC) was prepared through sodium periodate method. The resultant DAC was treated with octylamine to form cellulose Schiff base and it was characterized using various techniques such as FTIR, X-ray diffraction, elemental analysis. TGA was also conducted to find the thermal stability of the cellulose and cellulose Schiff base. Removal of Brilliant blue, Methyl orange and Bromocresol green dyes by cellulose Schiff base was studied and the percent removal of Brilliant blue, Methyl orange and Bromocresol green dyes from their solutions were 100%, 100%, and 81%, respectively. C
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Dissertations / Theses on the topic "Brilliant green dye"

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Trujillo, Rebollo Andres. "ROLE OF BRILLIANT GREEN ON THE DETECTION AND SEPARATION OF NON-CHROMOPHORIC ANALYTES BY REVERSED-PHASE LIQUID CHROMATOGRAPHY (DIMERIZATION)." Thesis, The University of Arizona, 1985. http://hdl.handle.net/10150/275434.

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Books on the topic "Brilliant green dye"

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Mancuso, Stefano. Brilliant Green: The Surprising History and Science of Plant Intelligence. Island Press, 2018.

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Mancuso, Stefano. Brilliant green: The surprising history and science of plant intelligence. 2015.

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Book chapters on the topic "Brilliant green dye"

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Babu, N. Chitti, Lagudu Preethi, Kolluru Manaswini, and Y. Bhavani. "STUDIES ON GREEN SYNTHESIS OF SILVER NANOPARTICLES FOR THE REMOVAL OF BRILLIANT GREEN DYE FROM AQUEOUS SOLUTION." In Futuristic Trends in Chemical Material Sciences & Nano Technology Volume 3 Book 16. Iterative International Publishers, Selfypage Developers Pvt Ltd, 2024. http://dx.doi.org/10.58532/v3bjcs16p3ch4.

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In order to remove Brilliant Green dye from an aqueous solution, the current study seeks to use an experimental evaluation of the biosorptive ability of synthetic nanoparticles with Tecomastans leaf extract. The XRD, FTIR, SEM, and FESEM analyses were used to describe the produced nanoparticles. The effects of agitation time, pH, BG dye concentration, biosorbent dosage, and temperature on BG dye removal were investigated in batch runs. The Response Surface Methodology (RSM) results are compared with the optimal settings that were empirically discovered. The experimental data is consistent with
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Dahlan, Irvan, Sariyah Mahdzir, Andi Mulkan, and Haider M. Zwain. "Comparative Adsorption Study of Acid Violet 7 and Brilliant Green Dyes in Aqueous Media using Rice Husk Ash (RHA) and Coal Fly Ash (CFA) Mixture." In Sustainability Studies: Environmental and Energy Management. BENTHAM SCIENCE PUBLISHERS, 2022. http://dx.doi.org/10.2174/9789815039924122010009.

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One of the concerns in wastewater pollution is the presence of colored compounds, such as dyes. Acid violet 7 (AV7) and brilliant green (BG) are examples of synthetic dyes that have been used in various applications. In this work, a comparison of AV7 and BG dye adsorption was investigated using an adsorbent prepared from the mixture of rice husk ash (RHA) and coal fly ash (CFA). The attention was focused on the major batch adsorption parameters, which include adsorbent dosage, initial dye concentration, contact time, pH, shaking speed, and temperature. A lesser amount of RHA-CFA adsorbent was
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Dahlan, Irvan, and Sariyah Mahdzir. "Adsorption of Dyes in Aqueous Medium Using RHA and CFA." In Handbook of Research on Resource Management for Pollution and Waste Treatment. IGI Global, 2020. http://dx.doi.org/10.4018/978-1-7998-0369-0.ch019.

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The preparation of adsorbent from the mixture of rice husk ash (RHA) and coal fly ash (CFA) has been investigated for adsorption of acid violet 7 (AV7) and brilliant green (BG) dyes. The RHA-CFA adsorbents were prepared using three different methods, i.e. reflux, magnetic co-precipitation, and magnetic template. Five different additives were used in reflux method. The results showed that RHA-CFA adsorbent prepared through reflux methods using NaOH and Na2CO3 shows higher dyes adsorption removal as compared to other methods. From zeta potential analysis, the electric charge of the outer layer o
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Henderson, B., and G. F. Imbusch. "Spectroscopy and electronic structure of inorganic solids." In Optical Spectroscopy of Inorganic Solids. Oxford University PressOxford, 2006. http://dx.doi.org/10.1093/oso/9780199298624.003.0001.

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Abstract The optical properties of solids have been of scientific and technological interest for over three centuries, and made use of for decorative purposes from the times of the earliest civilizations. Early cave artists produced pictures of their times and lifestyles, in which spectacular colour variations were achieved by intimate mixtures of different, naturally-occurring, inorganic pigments. Good examples of inorganic pigments are mercuric sulphide (a brilliant scarlet usually called vermilion), the beautiful green chromic oxide, and the bright blue cobaltous oxide. Pottery was coloured
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Emsley, John. "Insidious arsenic." In The Elements of Murder. Oxford University Press, 2005. http://dx.doi.org/10.1093/oso/9780192805997.003.0011.

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The journal of the Royal Society of 1671 carried a review of a paper by a Dr Caroli de la Font entitled ‘The nature and causes of the plague’ in which he put forward the theory that it was due to ‘arsenic exhalations’ that were polluting the air. Of course he was wrong, but the idea that such emissions could pollute the atmosphere was not wrong and 150 years later, in 1821, they may well have contributed to the death of one of the great figures of history: Napoleon. Arsenic had, and still has, its uses as we saw in the previous chapter but it is an insidious element and is much more mobile tha
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Conference papers on the topic "Brilliant green dye"

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Sklyar, Anatoly, Oksana Kalinkevich, Viktoriia Holubnycha, et al. "Biopolymer Composite Nanostructured Material Based on Chitosan and Brilliant Green Triarylmethane Dye." In 2020 IEEE 10th International Conference Nanomaterials: Applications & Properties (NAP). IEEE, 2020. http://dx.doi.org/10.1109/nap51477.2020.9309679.

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Liguo Wang, Wenjuan Liu, Xiuju Wang, Yongfang Chen, Siquan Liu, and Aimin Wang. "Research on adsorption properties of basic brilliant green dye wastewater by bentonite and zeolite." In 2011 International Conference on Remote Sensing, Environment and Transportation Engineering (RSETE). IEEE, 2011. http://dx.doi.org/10.1109/rsete.2011.5965288.

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Anandalli, Mallikarjun H., R. F. Bhajantri, Sunil G. Rathod, T. M. Kanakaraj, Chetan Chavan, and Shivaprasad Chalawadi. "Mechanical and thermal studies of brilliant green dye doped poly(vinyl alcohol) polymer composite." In DAE SOLID STATE PHYSICS SYMPOSIUM 2018. AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5113061.

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Khasri, Azduwin, Mohd Ridzuan Mohd Jamir, and Mohd Azmier Ahmad. "Adsorbent from orange peel for Remazol Brilliant dye removal: Equilibrium and kinetic studies." In 6TH INTERNATIONAL CONFERENCE ON ENVIRONMENT (ICENV2018): Empowering Environment and Sustainable Engineering Nexus Through Green Technology. AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5117115.

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Alkaim, Ayad F., Ahmed B. Mahdi, Usama S. Altimari, Shadha Al Qaysi, Montather F. Ramadan, and Aseel M. Aljeboree. "Removal of Brilliant-Green Dye Using Carbon-Loaded Zinc Oxide Nanoparticles: A Comparative Isotherm Study." In RAiSE-2023. MDPI, 2024. http://dx.doi.org/10.3390/engproc2023059152.

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Dahlan, Irvan, Haider M. Zwain, Mohd Aliff Omar Seman, Nurul Huda Baharuddin, and Mohd Roslee Othman. "Adsorption of brilliant green dye in aqueous medium using magnetic adsorbents prepared from rice husk ash." In 6TH INTERNATIONAL CONFERENCE ON ENVIRONMENT (ICENV2018): Empowering Environment and Sustainable Engineering Nexus Through Green Technology. AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5117077.

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Patel, Sarvesh, Maharshi Yadav, Vitthal L. Gole, and Jyoti. "Brilliant Green Dye Removal and Reduction in Turbidity of Lake Water using Moringa Oleifera Seed Powder and Disinfection of Lake Water with US/UVC." In International Conference on Frontiers in Desalination, Energy, Environment and Material Sciences for Sustainable Development & Annual Congress of InDA. AIJR Publisher, 2023. http://dx.doi.org/10.21467/proceedings.161.25.

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This study explores the application of Moringa Oleifera (MO) seed in water and wastewater treatment and dye removal. We have collected lake water and exposed it with different dosing of MO and found that 500 ppm dosing with original, Low pH of 3 and high pH of 11 of lake water sample show turbidity removal from 65 NTU to low as 2 NTU. MO found to be suitable for the dye removal, 15 ppm dye concentration of Brilliant green dye was removed with 15 minutes of stirring with 500 ppm dosing of MO. We noticed that MO treatment of lake water at natural pH increases the bacterial population of lake wat
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ENACHE, Andra-Cristina, Corneliu COJOCARU, and Petrisor SAMOILA. "Green chemistry with cellulose-based adsorbents: laboratory-designed formulations vs. waste harnessing." In "Instruire prin cercetare pentru o societate prosperă", conferinţă ştiinţifico-practică internaţională. Ion Creangă Pedagogical State University, 2024. https://doi.org/10.46727/c.v1.16-17-05-2024.p26-31.

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This comparative study presents the performance of various adsorbents oriented towards the principles of "green" chemistry, with a focus on adsorbing soluble organic pollutants from wastewater and minimizing the additional generation of toxic substances. In this regard, two categories of cellulose-based materials are compared: (1) spherical carboxymethyl cellulose (CMC) composites synthesized in the laboratory and (2) bioadsorbents derived from biomass waste (walnut and pistachio shells). These adsorbents have been investigated in the adsorption processes of cationic dyes such as methylene blu
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Buthpitiya, B. L. S. K., and Yohan L. N. Mathota Arachchige. "Analysis of Efficiency and The Adsorption Nature of Malachite Green Dye from an Aqueous Solution on activated Carbon Generated from Strychnos potatorum (Ingini) seeds." In 3rd SLIIT International Conference on Engineering and Technology. SLIIT, 2024. http://dx.doi.org/10.54389/foxb3223.

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Malachite green (MG) is a basic dye with an amino group which is water soluble. This is a higher brilliance dye even in low concentrations. Therefore, MG is used mainly in dyeing for wool, leather, cotton, paper, wood, jute and as an anti-bacterial, anti-fungal, and anti-parasitical agent in aquaculture. The releasing of wastewater with MG from various industries is a huge problem because of the existence of MG in the wastewater causes toxicity for aquatic lives and it enters into the trophic levels of the food chains and causes teratogenic, mutagenic, carcinogenic and tumor-enhancing effects
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Ceriachi, Melissa. "RECOVERY OF A SEVERELY DETERIORATED PAINTING: THE MARTYRDOM OF SAINT SEBASTIAN BY GIOVANNI SANTI (15TH CENTURY). INTEGRATIVE PROPOSAL." In RECH6 - 6th International Meeting on Retouching of Cultural Heritage. Editorial Universitat Politècnica de València, 2021. http://dx.doi.org/10.4995/rech6.2021.13492.

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This contribution examines a painting on wood: The Martyrdom of Saint Sebastian, by Giovanni Santi. This work of art is the altarpiece of the chapel dedicated to the saint, located in Urbino's Church of San Bartolomeo. The history of this work of art is inextricably linked to that of its conservation: initially, the artwork was difficult to read due to the serious state of deterioration of the paint layer, with a loss of significant portions of the painting, including pictorial parts that played a decisive role in the rendering of the image. This had significant implications when it came to ch
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