Relevant bibliographies by topics / Ecofriendly reaction conditions

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  1. Journal articles
  2. Book chapters
  3. Conference papers

Academic literature on the topic 'Ecofriendly reaction conditions'

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

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Journal articles on the topic "Ecofriendly reaction conditions"

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Nasr-Esfahani, Masoud, Morteza Montazerozohori, and Najmeh Filvan. "Ultrasound-assisted catalytic synthesis of acyclic imides in the presence of p-toluenesulfonic acid under solvent free conditions." Journal of the Serbian Chemical Society 77, no. 4 (2012): 415–21. http://dx.doi.org/10.2298/jsc110511168n.

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A rapid and convenient preparation of acyclic imides by the reaction of aliphatic and aromatic nitriles with acyclic carboxylic anhydride in the presence of catalytic amounts of p-toluenesulfonic acid under thermal or ultrasonic conditions is reported. The advantages of this procedure are moderate reaction times, good to excellent yields, use of inexpensive and ecofriendly catalyst. The reaction of nitriles with aliphatic anhydrides proceeds in thermal conditions, while by the use of ultrasound irradiations these reactions get accelerated.
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Gandhi, Divyani, Priyanka Kalal, Prakash Prajapat, Dinesh Kumar Agarwal, and Shikha Agarwal. "Diversity Oriented Synthesis of 4H-Pyrimido[2,1-b]benzothiazole Derivatives via Biginellis Reaction: A Review." Combinatorial Chemistry & High Throughput Screening 21, no. 4 (2018): 236–53. http://dx.doi.org/10.2174/1386207321666180330170456.

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Background: Heterocycles have extended into widespread use for generating large collection of molecules in multi-component reactions. The development of new strategies for fused pyrimidobenzothiazole system has remained a highly attractive but challenging proposition for scientists working all around. Objective: The main objective of this work is to explore the utility of different catalysts as an ecofriendly reaction medium for green Biginellis reaction. Method: A detailed study of Biginellis reactions using various catalysts was done using different research tools. The methods involved react
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Patil, Suresh, S. D. Jadhav, and S. K. Shinde. "CES as an Efficient Natural Catalyst for Synthesis of Schiff Bases under Solvent-Free Conditions: An Innovative Green Approach." Organic Chemistry International 2012 (December 5, 2012): 1–5. http://dx.doi.org/10.1155/2012/153159.

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A mild and efficient method has been reported for the preparation of Schiff base ligands through the condensation reaction of various aromatic aldehydes with substituted aromatic amines in the presence of CES (calcined eggshell) as a heterogeneous catalyst under solvent-free conditions. The advantages of this ecofriendly, economic method are simplicity of the reaction procedure, moderate to good product yields, and very short reaction times.
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Robert Khumalo, Mandlenkosi, Surya Narayana Maddila, Suresh Maddila, and Sreekantha B. Jonnalagadda. "A multicomponent, facile and catalyst-free microwave-assisted protocol for the synthesis of pyrazolo-[3,4-b]-quinolines under green conditions." RSC Advances 9, no. 53 (2019): 30768–72. http://dx.doi.org/10.1039/c9ra04604f.

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A facile, swift and ecofriendly microwave-assisted multi-component/one-pot protocol is designed for the synthesis of novel pyrazolo-[3,4-b]-quinolines at ambient temperature in aqueous ethanol as a reaction medium.
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Sun, Yadong, Ablimit Abdukader, Yuhan Lu, and Chenjiang Liu. "Diiiodine/Potassium Persulfate Mediated Synthesis of 1,2,3-Thiadiazoles from N-Tosylhydrazones and a Thiocyanate Salt as a Sulfur Source under Transition-Metal-Free Conditions." Synlett 32, no. 10 (2021): 1044–48. http://dx.doi.org/10.1055/a-1473-7369.

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AbstractA highly efficient method for the synthesis of 1,2,3-thiadiazoles has been developed by utilizing readily available tosylhydrazones and ammonium thiocyanate with ecofriendly EtOH as the solvent at room temperature. The reaction shows a wide scope of substrates and good functional-group tolerance. This protocol can be scaled up to a gram level and can be applied to coupling reactions with 4-(4-bromophenyl)-1,2,3-thiadiazole as the substrate.
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Abid, Mohammed, Béla Török, and Xudong Huang. "Microwave-Assisted Tandem Processes for the Synthesis of N-Heterocycles." Australian Journal of Chemistry 62, no. 3 (2009): 208. http://dx.doi.org/10.1071/ch08474.

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Over the years, microwave-assisted organic synthesis (MAOS) became a commonly applied mainstream tool for the synthesis of heterocyclic compounds. The broad range of emerging applications in this field is mainly due to the significant contribution of MAOS to the development of ecofriendly processes. Various transformations have been developed for the synthesis of N-heterocycles under microwave conditions, including fast and selective processes. Tandem reactions involving greener reaction media, solvent-free conditions, and solid-phase synthesis are of exceptional interest in this area. In most
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Abid, Mohammed, Béla Török, and Xudong Huang. "Corrigendum to: Microwave-Assisted Tandem Processes for the Synthesis of N-Heterocycles." Australian Journal of Chemistry 62, no. 4 (2009): 392. http://dx.doi.org/10.1071/ch08474_co.

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Over the years, microwave-assisted organic synthesis (MAOS) became a commonly applied mainstream tool for the synthesis of heterocyclic compounds. The broad range of emerging applications in this field is mainly due to the significant contribution of MAOS to the development of ecofriendly processes. Various transformations have been developed for the synthesis of N-heterocycles under microwave conditions, including fast and selective processes. Tandem reactions involving greener reaction media, solvent-free conditions, and solid-phase synthesis are of exceptional interest in this area. In most
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8

Al-Humaidi, Jehan Y., Sobhi M. Gomha, Nahed A. Abd El-Ghany, et al. "Green Synthesis and Molecular Docking Study of Some New Thiazoles Using Terephthalohydrazide Chitosan Hydrogel as Ecofriendly Biopolymeric Catalyst." Catalysts 13, no. 9 (2023): 1311. http://dx.doi.org/10.3390/catal13091311.

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Terephthalohydrazide chitosan hydrogel (TCs) was prepared and investigated as an ecofriendly biopolymeric catalyst for synthesis of some novel thiazole and thiadiazole derivatives. Thus, TCs was used as a promising ecofriendly basic biocatalyst for preparation of three new series of thiazoles and two thiadiazoles derivatives via reacting 2-(2-oxo-1,2-diphenylethylidene) hydrazine-1-carbothio-amide with various hydrazonoyl chlorides and α-haloketones under mild ultrasonic irradiation. Also, their yield% was estimated using chitosan and TCs in a comparative study. The procedure being employed ha
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M., Kidwai, and Thakur R. "Green chemistry in sustainable national development." Journal of Indian Chemical Society Vol. 82, Dec 2005 (2005): 1103–11. https://doi.org/10.5281/zenodo.5823898.

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Department of Chemistry, University of Delhi, Delhi-110 007, India <em>E-mail</em> : kidwai_chemistry@yahoo.co.uk&nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp;<em> Fax</em> : 91-11-27666235 <em>Manuscript received 6 June 2005</em> The green chemistry revolution provides an enormous number of oppourtunities to discover and apply new synthetic approaches using alternative feedstocks; ecofriendly reaction conditions, energy minimizations and the design of less toxic and inherently safer chemicals. The origin and basis of green chemistry chart for achieving environmental and econom
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Torres-Hernández, Fernando, Ángel Rentería-Gómez, and Rocío Gámez-Montaño. "Synthesis of Epoxyisoindolinones via Microwave-Assisted Ugi-4CR/Intramolecular-Diels-Alder Reaction." Cells 3, no. 1 (2020): 83. http://dx.doi.org/10.3390/ecsoc-24-08425.

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A series of epoxyisoindolinones were synthesized by microwave-assisted post-IMCR transformation-based domino strategy via the Ugi-4CR/Intramolecular-Diels-Alder (U-4CR/IMDA) sequence under mild, solvent-, catalyst-free ecofriendly conditions, and orthogonal-bifunctional components. Epoxyisoindolinones are a privileged core of high interest in medicinal chemistry mainly for its anticancer activity in several cell lines.
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Book chapters on the topic "Ecofriendly reaction conditions"

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Uddandarao, Priyanka, and Piet N. L. Lens. "Biological production of nanoparticles and their application in photocatalysis." In Nanobiohybrids for Advanced Wastewater Treatment and Energy Recovery. IWA Publishing, 2023. http://dx.doi.org/10.2166/9781789063592_0021.

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Abstract With the advancement in science and technology, the demand for nanotechnology has increased significantly in terms of research and developing strategies for their manufacturing. Nanotechnology is an interdisciplinary field of science where the size of the material is designed such that at least one of its dimensions is in this nanometer (nm) range. It combines various disciplines of biology, chemistry, physics and material science. The exceptional size-dependent fluorescence and quantum confinement properties of nanomaterials have allured their utility in diverse sectors. They are pot
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Abida, Meryem, Loubna Jabir, Omar Azougagh, et al. "An Ecofriendly Polymer With Significant Properties, Extensive Modification Potential, and Sustainable Industrial Applications." In Advances in Environmental Engineering and Green Technologies. IGI Global, 2025. https://doi.org/10.4018/979-8-3693-9826-5.ch008.

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Hydroxyethylcellulose (HEC) is a water-soluble derivative of cellulose, obtained by reacting cellulose with ethylene oxide. This chemical transformation imparts distinctive characteristics to HEC, such as enhanced water solubility, increased viscosity, and optimized stability under various pH and thermal conditions. These properties make HEC an essential polymer in various industrial sectors. In the cosmetic and pharmaceutical industries, HEC is mainly used for its thickening, stabilizing, and moisturizing properties. It is also employed in the paint and coatings sector as a viscosity modifier
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Ray Chaudhuri, Shaon. "Green Gold from Dairy Industry: A Self-Sustained Eco-Friendly Effluent Treatment Plant." In New Advances in the Dairy Industry [Working Title]. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.101254.

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The major bottleneck of dairy effluent treatment plant operation is the generation of 10 m3 of nutrient rich wastewater per m3 of milk processed resulting in an annual production of 7.93 tons of carbon dioxide equivalent (CO2 e) gas during treatment in a 7–8 step process. It is an expensive, non-ecofriendly, laborious process which is often not adoptable by the small segment installations. A carefully selected tailor-made bacterial consortium in biofilm reactor within 4 h of incubation in a single step operation under ambient condition could transform the total volume of wastewater into ammoni
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Conference papers on the topic "Ecofriendly reaction conditions"

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Lazaroiu, Gheorghe, Dana-Alexandra Ciupageanu, Lucian Mihaescu, and Rodica-Manuela Grigoriu. "Comparative analysis of carbon dioxide methanation technologies for low carbon society development." In The 8th International Conference on Advanced Materials and Systems. INCDTP - Leather and Footwear Research Institute (ICPI), Bucharest, Romania, 2020. http://dx.doi.org/10.24264/icams-2020.iv.11.

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Conversion technologies able to transform renewable energy sources (RES) based electricity in gaseous fuels, which can be stored over long timeframes, represent a key focus point considering the low carbon society development. Thus, Power-to-Gas technologies emerge as a viable solution to mitigate the variability of RES power generation, enabling spatial and temporal balancing of production vs. demand mismatches. An additional benefit in this context is brought by the decarbonization facilities, employing polluting carbon dioxide (CO2) emissions and RES-based electricity to produce synthetic n
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Alanqari, Khawlah, Abdullah Al-Yami, and Vikrant Wagle. "Preparation of a Synthetic Geopolymer Cement Utilizing Saudi Arabian Volcanic Ash for a Sustainable Development: Method, Preparation and Applications." In International Petroleum Technology Conference. IPTC, 2022. http://dx.doi.org/10.2523/iptc-22617-ea.

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Abstract The global production of cement is the third largest source of CO2 emissions into the environment, which comes from the decomposition of carbonates. Geopolymer cements can reduce CO2 emissions by 64-80% compared to conventional Ordinary Portland Cement (OPC). In other words, OPC produces around 900 kg of CO2 for every 1000 kg of cement production. Whereas, geo-polymer cements emits zero CO2 emissions while production. In addition, Geo-polymer cements can be prepared utilizing waste materials such as fly ash. In Saudi Arabia, we have enough volcanic ash to sustain the development of th
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Journal articles
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