Dual Valorization of Potato Peel (Solanum tuberosum) as a Versatile and Sustainable Agricultural Waste in Both Bioflocculation of Eriochrome Black T and Biosorption of Methylene Blue

[1]  A. A. Ambushe,et al.  Sugarcane Bagasse and Orange Peels as Low-Cost Biosorbents for the Removal of Lead Ions from Contaminated Water Samples , 2022, Water.

[2]  J. Bollinger,et al.  Comparison of Four Plant-Based Bio-Coagulants Performances against Alum and Ferric Chloride in the Turbidity Improvement of Bentonite Synthetic Water , 2022, Water.

[3]  H. Alawadhi,et al.  Efficient Removal of Eriochrome Black T (EBT) Dye and Chromium (Cr) by Hydrotalcite-Derived Mg-Ca-Al Mixed Metal Oxide Composite , 2022, Catalysts.

[4]  F. Cacciola,et al.  Efficient Removal of Eriochrome Black T Dye Using Activated Carbon of Waste Hemp (Cannabis sativa L.) Grown in Northern Morocco Enhanced by New Mathematical Models , 2022, Separations.

[5]  A. A. Aly,et al.  Apricot seed shell: an agro-waste biosorbent for acid blue193 dye adsorption , 2022, Biomass Conversion and Biorefinery.

[6]  A. Dey,et al.  Use of Anionic Surfactant-Modified Activated Carbon for Efficient Adsorptive Removal of Crystal Violet Dye , 2022, Adsorption Science & Technology.

[7]  Billie Yan Zhang Hiew,et al.  Effective remediation of lead(II) wastewater by Parkia speciosa pod biosorption: Box-Behnken design optimisation and adsorption performance evaluation , 2022, Biochemical Engineering Journal.

[8]  Fang Ma,et al.  A novel treatment for amelioration of sludge dewaterability using green starch-grafted flocculant and realized mechanism , 2022, Separation and Purification Technology.

[9]  A. Rubio-Clemente,et al.  Coupling of Advanced Oxidation Technologies and Biochar for the Removal of Dyes in Water , 2022, Water.

[10]  H. Yang,et al.  Efficient removal of nano- and micro- sized plastics using a starch-based coagulant in conjunction with polysilicic acid. , 2022, The Science of the total environment.

[11]  Aref Abbasi Moud Polymer based flocculants: Review of water purification applications , 2022, Journal of Water Process Engineering.

[12]  J. Bollinger,et al.  Zeolite Waste Characterization and Use as Low-Cost, Ecofriendly, and Sustainable Material for Malachite Green and Methylene Blue Dyes Removal: Box–Behnken Design, Kinetics, and Thermodynamics , 2022, Applied Sciences.

[13]  H. Lgaz,et al.  Adsorption removal of phenol by oak wood charcoal activated carbon , 2022, Biomass Conversion and Biorefinery.

[14]  Xubiao Luo,et al.  Proton Self-Enhanced Hydroxyl-Enriched Cerium Oxide for Effective Arsenic Extraction from Strongly Acidic Wastewater. , 2022, Environmental science & technology.

[15]  A. Abd-Elhamid,et al.  Adsorption of Crystal violet and Methylene blue Dyes using a Cellulose-based adsorbent from Sugercane bagasse: Characterization, kinetic and Isotherm studies , 2022, Journal of Materials Research and Technology.

[16]  Michal L. Gala,et al.  Proton Donors Induce a Differential Transport Effect for Selectivity toward Ammonia in Lithium-Mediated Nitrogen Reduction , 2022, ACS Catalysis.

[17]  M. Guida,et al.  A review of plant-based coagulants for turbidity and cyanobacteria blooms removal , 2022, Environmental Science and Pollution Research.

[18]  E. Torres,et al.  Efficient Removal of Methylene Blue Using Living Biomass of the Microalga Chlamydomonas moewusii: Kinetics and Equilibrium Studies , 2022, International journal of environmental research and public health.

[19]  G. Cabrera,et al.  Optimization of nickel and cobalt biosorption by native Serratia marcescens strains isolated from serpentine deposits using response surface methodology , 2022, Environmental Monitoring and Assessment.

[20]  A. Mujumdar,et al.  Conventional and novel peeling methods for fruits and vegetables: A review , 2022, Innovative Food Science & Emerging Technologies.

[21]  K. Saeed,et al.  Review on Methylene Blue: Its Properties, Uses, Toxicity and Photodegradation , 2022, Water.

[22]  Mohammad Saood Manzar,et al.  Comparative Adsorption of Eriochrome Black T and Tetracycline by Naoh-Modified Steel Dust: Kinetic and Process Modeling , 2022, SSRN Electronic Journal.

[23]  Dilip Kumar,et al.  Adsorption of Methylene Blue and Reactive Black 5 by Activated Carbon Derived from Tamarind Seeds , 2021, Tropical Aquatic and Soil Pollution.

[24]  H. Hasan,et al.  What compound inside biocoagulants/bioflocculants is contributing the most to the coagulation and flocculation processes? , 2021, The Science of the total environment.

[25]  A. Sarıkaya,et al.  Biosorption of Sirius Blue azo-dye by Agaricus campestris biomass: Batch and continuous column studies , 2021, Materials Chemistry and Physics.

[26]  B. Gullón,et al.  Identification and Recovery of Valuable Bioactive Compounds from Potato Peels: A Comprehensive Review , 2021, Antioxidants.

[27]  M. Al‐harthi,et al.  Adsorption and reusability performance of M-Fe (M = Co, Cu, Zn and Ni) layered double hydroxides for the removal of hazardous Eriochrome Black T dye from different water streams , 2021, Journal of Water Process Engineering.

[28]  A. A. Zaatout,et al.  Removal of brilliant green dye from synthetic wastewater under batch mode using chemically activated date pit carbon , 2021, RSC advances.

[29]  Joshua O. Ighalo,et al.  Terminalia catappa shell as low-cost biosorbent for the removal of methylene blue from aqueous solutions , 2021 .

[30]  Joshua O. Ighalo,et al.  Recent advances on the adsorption of herbicides and pesticides from polluted waters: Performance evaluation via physical attributes , 2021 .

[31]  E. García-Márquez,et al.  Physicochemical, morpho-structural and rheological characterization of starches from three Phaseolus spp. landraces grown in Chiapas , 2020, Journal of Food Measurement and Characterization.

[32]  F. U. Nigiz,et al.  Preparation and Characterization an Active Carbon Adsorbent from Waste Mandarin Peel and Determination of Adsorption Behavior on Removal of Synthetic Dye Solutions , 2020, Water, Air, & Soil Pollution.

[33]  E. Pehlivan,et al.  Biosorption of methylene blue and malachite green on biodegradable magnetic Cortaderia selloana flower spikes: modeling and equilibrium study , 2020, International journal of phytoremediation.

[34]  M. Elkady,et al.  Comparison of coagulation performance using natural coagulants against traditional ones , 2020 .

[35]  T. Shoeib,et al.  Novel approach for effective removal of methylene blue dye from water using fava bean peel waste , 2020, Scientific Reports.

[36]  Tariq J. Al-Musawi,et al.  The eradication of reactive black 5 dye liquid wastes using Azolla filiculoides aquatic fern as a good and an economical biosorption agent , 2020, SN Applied Sciences.

[37]  J. Odiyo,et al.  Evaluation of Methylene Blue Sorption onto Low-Cost Biosorbents: Equilibrium, Kinetics, and Thermodynamics , 2020 .

[38]  J. Conradie,et al.  Banana peel as a biosorbent for the decontamination of water pollutants. A review , 2020, Environmental Chemistry Letters.

[39]  I. Urbatsch,et al.  Bradford Assay for Determining Protein Concentration. , 2020, Cold Spring Harbor protocols.

[40]  R. Bergamasco,et al.  Sugarcane Bagasse as an Efficient Biosorbent for Methylene Blue Removal: Kinetics, Isotherms and Thermodynamics , 2020, International journal of environmental research and public health.

[41]  J. Onyari,et al.  Adsorptive removal of hazardous crystal violet dye form aqueous solution using Rhizophora mucronata stem-barks: Equilibrium and kinetics studies , 2020, Environmental Chemistry and Ecotoxicology.

[42]  J. Bollinger,et al.  Modeling and optimization of process parameters in elucidating the adsorption mechanism of Gallic acid on activated carbon prepared from date stones , 2020, Separation Science and Technology.

[43]  J. Gomes,et al.  Isolation and characterization of starch from pitomba endocarp. , 2019, Food research international.

[44]  M. Brito,et al.  Biosorption of Methylene Blue Dye Using Natural Biosorbents Made from Weeds , 2019, Materials.

[45]  Cherakkathodi Sudheesh,et al.  Physico-chemical, morphological, pasting and thermal properties of stem flour and starch isolated from kithul palm (Caryota urens) grown in valley of Western Ghats of India , 2019, Journal of Food Measurement and Characterization.

[46]  M. Pontie,et al.  Comparative assessment of methylene blue biosorption using coffee husks and corn cobs: towards the elaboration of a lignocellulosic-based amperometric sensor , 2019, SN Applied Sciences.

[47]  M. Hafeez,et al.  Ficcus palmata leaves as a low‐cost biosorbent for methylene blue: Thermodynamic and kinetic studies , 2019, Water environment research : a research publication of the Water Environment Federation.

[48]  H. Esmaeili,et al.  Calcined Umbonium vestiarium snail shell as an efficient adsorbent for treatment of wastewater containing Co (II) , 2019, 3 Biotech.

[49]  O. Okagu,et al.  Attenuation of Methylene Blue From Aqua-media on Acid Activated Montmorillonite of Nigerian Origin , 2017, Journal of Environmental Science and Management.

[50]  V. Calado,et al.  Extraction, Modification, and Chemical, Thermal and Morphological Characterization of Starch From the Agro‐Industrial Residue of Mango (Mangifera indica L) var. Ubá , 2019 .

[51]  M. Maaza,et al.  Equilibrium and kinetic studies of the adsorption of acid blue 9 and Safranin O from aqueous solutions by MgO decked FLG coated Fuller's earth , 2018, Journal of Physics and Chemistry of Solids.

[52]  Yi Zheng,et al.  A review on agro-industrial waste (AIW) derived adsorbents for water and wastewater treatment. , 2018, Journal of environmental management.

[53]  B. Sithole,et al.  Valorisation of avocado seeds: extraction and characterisation of starch for textile applications , 2018, Clean Technologies and Environmental Policy.

[54]  Ali H. Jawad,et al.  Utilization of watermelon (Citrullus lanatus) rinds as a natural low-cost biosorbent for adsorption of methylene blue: kinetic, equilibrium and thermodynamic studies , 2018, Journal of Taibah University for Science.

[55]  J. Bollinger,et al.  Removal of Methylene Blue from aqueous solutions by adsorption on Kaolin: Kinetic and equilibrium studies , 2018 .

[56]  Ammar B. Altemimi,et al.  Extraction and Optimization of Potato Starch and Its Application as a Stabilizer in Yogurt Manufacturing , 2018, Foods.

[57]  P. Panesar,et al.  Process standardization for isolation of quinoa starch and its characterization in comparison with other starches , 2017, Journal of Food Measurement and Characterization.

[58]  U. Farooq,et al.  Potential biosorbent, Haloxylon recurvum plant stems, for the removal of methylene blue dye , 2017 .

[59]  M. Banach,et al.  Sorption and desorption studies on silver ions from aqueous solution by coconut fiber , 2017 .

[60]  U. J. Etim,et al.  Coconut coir dust as a low cost adsorbent for the removal of cationic dye from aqueous solution , 2016 .

[61]  J. Bollinger,et al.  Removal of lead(II) from water using activated carbon developed from jujube stones, a low-cost sorbent , 2016 .

[62]  S. Y. Choy,et al.  Isolation, characterization and the potential use of starch from jackfruit seed wastes as a coagulant aid for treatment of turbid water , 2016, Environmental Science and Pollution Research.

[63]  H. A. Aziz,et al.  Extraction and application of starch-based coagulants from sago trunk for semi-aerobic landfill leachate treatment , 2015, Environmental Science and Pollution Research.

[64]  T. Wu,et al.  Potential use of rice starch in coagulation–flocculation process of agro-industrial wastewater: Treatment performance and flocs characterization , 2014 .

[65]  M. Rafatullah,et al.  Adsorption of methylene blue on low-cost adsorbents: a review. , 2010, Journal of hazardous materials.

[66]  M. C. Chemelil,et al.  Investigation of chemical and biochemical properties of Maerua subcordata , 2008 .