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Research Journal of Chemistry and Environment
Subject Area and Category
- Agricultural and Biological Sciences (miscellaneous)
- Biochemistry
- Chemical Engineering (miscellaneous)
- Chemistry (miscellaneous)
- Earth and Planetary Sciences (miscellaneous)
- Renewable Energy, Sustainability and the Environment
- Environmental Science (miscellaneous)
International Congress of Chemistry and Environment
Publication type
The set of journals have been ranked according to their SJR and divided into four equal groups, four quartiles. Q1 (green) comprises the quarter of the journals with the highest values, Q2 (yellow) the second highest values, Q3 (orange) the third highest values and Q4 (red) the lowest values.
Category | Year | Quartile |
---|---|---|
Agricultural and Biological Sciences (miscellaneous) | 2008 | Q3 |
Agricultural and Biological Sciences (miscellaneous) | 2009 | Q3 |
Agricultural and Biological Sciences (miscellaneous) | 2010 | Q3 |
Agricultural and Biological Sciences (miscellaneous) | 2011 | Q3 |
Agricultural and Biological Sciences (miscellaneous) | 2012 | Q3 |
Agricultural and Biological Sciences (miscellaneous) | 2013 | Q3 |
Agricultural and Biological Sciences (miscellaneous) | 2014 | Q3 |
Agricultural and Biological Sciences (miscellaneous) | 2015 | Q4 |
Agricultural and Biological Sciences (miscellaneous) | 2016 | Q4 |
Agricultural and Biological Sciences (miscellaneous) | 2017 | Q4 |
Agricultural and Biological Sciences (miscellaneous) | 2018 | Q4 |
Agricultural and Biological Sciences (miscellaneous) | 2019 | Q4 |
Agricultural and Biological Sciences (miscellaneous) | 2020 | Q4 |
Agricultural and Biological Sciences (miscellaneous) | 2021 | Q4 |
Agricultural and Biological Sciences (miscellaneous) | 2022 | Q4 |
Agricultural and Biological Sciences (miscellaneous) | 2023 | Q4 |
Biochemistry | 2008 | Q4 |
Biochemistry | 2009 | Q4 |
Biochemistry | 2010 | Q4 |
Biochemistry | 2011 | Q4 |
Biochemistry | 2012 | Q4 |
Biochemistry | 2013 | Q4 |
Biochemistry | 2014 | Q4 |
Biochemistry | 2015 | Q4 |
Biochemistry | 2016 | Q4 |
Biochemistry | 2017 | Q4 |
Biochemistry | 2018 | Q4 |
Biochemistry | 2019 | Q4 |
Biochemistry | 2020 | Q4 |
Biochemistry | 2021 | Q4 |
Biochemistry | 2022 | Q4 |
Biochemistry | 2023 | Q4 |
Chemical Engineering (miscellaneous) | 2008 | Q3 |
Chemical Engineering (miscellaneous) | 2009 | Q3 |
Chemical Engineering (miscellaneous) | 2010 | Q3 |
Chemical Engineering (miscellaneous) | 2011 | Q3 |
Chemical Engineering (miscellaneous) | 2012 | Q3 |
Chemical Engineering (miscellaneous) | 2013 | Q3 |
Chemical Engineering (miscellaneous) | 2014 | Q3 |
Chemical Engineering (miscellaneous) | 2015 | Q3 |
Chemical Engineering (miscellaneous) | 2016 | Q4 |
Chemical Engineering (miscellaneous) | 2017 | Q4 |
Chemical Engineering (miscellaneous) | 2018 | Q4 |
Chemical Engineering (miscellaneous) | 2019 | Q4 |
Chemical Engineering (miscellaneous) | 2020 | Q4 |
Chemical Engineering (miscellaneous) | 2021 | Q4 |
Chemical Engineering (miscellaneous) | 2022 | Q4 |
Chemical Engineering (miscellaneous) | 2023 | Q4 |
Chemistry (miscellaneous) | 2008 | Q4 |
Chemistry (miscellaneous) | 2009 | Q4 |
Chemistry (miscellaneous) | 2010 | Q3 |
Chemistry (miscellaneous) | 2011 | Q3 |
Chemistry (miscellaneous) | 2012 | Q4 |
Chemistry (miscellaneous) | 2013 | Q3 |
Chemistry (miscellaneous) | 2014 | Q3 |
Chemistry (miscellaneous) | 2015 | Q4 |
Chemistry (miscellaneous) | 2016 | Q4 |
Chemistry (miscellaneous) | 2017 | Q4 |
Chemistry (miscellaneous) | 2018 | Q4 |
Chemistry (miscellaneous) | 2019 | Q4 |
Chemistry (miscellaneous) | 2020 | Q4 |
Chemistry (miscellaneous) | 2021 | Q4 |
Chemistry (miscellaneous) | 2022 | Q4 |
Chemistry (miscellaneous) | 2023 | Q4 |
Earth and Planetary Sciences (miscellaneous) | 2008 | Q3 |
Earth and Planetary Sciences (miscellaneous) | 2009 | Q3 |
Earth and Planetary Sciences (miscellaneous) | 2010 | Q3 |
Earth and Planetary Sciences (miscellaneous) | 2011 | Q3 |
Earth and Planetary Sciences (miscellaneous) | 2012 | Q3 |
Earth and Planetary Sciences (miscellaneous) | 2013 | Q3 |
Earth and Planetary Sciences (miscellaneous) | 2014 | Q3 |
Earth and Planetary Sciences (miscellaneous) | 2015 | Q4 |
Earth and Planetary Sciences (miscellaneous) | 2016 | Q4 |
Earth and Planetary Sciences (miscellaneous) | 2017 | Q4 |
Earth and Planetary Sciences (miscellaneous) | 2018 | Q4 |
Earth and Planetary Sciences (miscellaneous) | 2019 | Q4 |
Earth and Planetary Sciences (miscellaneous) | 2020 | Q4 |
Earth and Planetary Sciences (miscellaneous) | 2021 | Q4 |
Earth and Planetary Sciences (miscellaneous) | 2022 | Q4 |
Earth and Planetary Sciences (miscellaneous) | 2023 | Q4 |
Environmental Science (miscellaneous) | 2008 | Q3 |
Environmental Science (miscellaneous) | 2009 | Q3 |
Environmental Science (miscellaneous) | 2010 | Q3 |
Environmental Science (miscellaneous) | 2011 | Q3 |
Environmental Science (miscellaneous) | 2012 | Q3 |
Environmental Science (miscellaneous) | 2013 | Q3 |
Environmental Science (miscellaneous) | 2014 | Q3 |
Environmental Science (miscellaneous) | 2015 | Q3 |
Environmental Science (miscellaneous) | 2016 | Q4 |
Environmental Science (miscellaneous) | 2017 | Q4 |
Environmental Science (miscellaneous) | 2018 | Q4 |
Environmental Science (miscellaneous) | 2019 | Q4 |
Environmental Science (miscellaneous) | 2020 | Q4 |
Environmental Science (miscellaneous) | 2021 | Q4 |
Environmental Science (miscellaneous) | 2022 | Q4 |
Environmental Science (miscellaneous) | 2023 | Q4 |
Renewable Energy, Sustainability and the Environment | 2008 | Q4 |
Renewable Energy, Sustainability and the Environment | 2009 | Q4 |
Renewable Energy, Sustainability and the Environment | 2010 | Q3 |
Renewable Energy, Sustainability and the Environment | 2011 | Q4 |
Renewable Energy, Sustainability and the Environment | 2012 | Q4 |
Renewable Energy, Sustainability and the Environment | 2013 | Q4 |
Renewable Energy, Sustainability and the Environment | 2014 | Q4 |
Renewable Energy, Sustainability and the Environment | 2015 | Q4 |
Renewable Energy, Sustainability and the Environment | 2016 | Q4 |
Renewable Energy, Sustainability and the Environment | 2017 | Q4 |
Renewable Energy, Sustainability and the Environment | 2018 | Q4 |
Renewable Energy, Sustainability and the Environment | 2019 | Q4 |
Renewable Energy, Sustainability and the Environment | 2020 | Q4 |
Renewable Energy, Sustainability and the Environment | 2021 | Q4 |
Renewable Energy, Sustainability and the Environment | 2022 | Q4 |
Renewable Energy, Sustainability and the Environment | 2023 | Q4 |
The SJR is a size-independent prestige indicator that ranks journals by their 'average prestige per article'. It is based on the idea that 'all citations are not created equal'. SJR is a measure of scientific influence of journals that accounts for both the number of citations received by a journal and the importance or prestige of the journals where such citations come from It measures the scientific influence of the average article in a journal, it expresses how central to the global scientific discussion an average article of the journal is.
Year | SJR |
---|---|
2008 | 0.141 |
2009 | 0.150 |
2010 | 0.179 |
2011 | 0.176 |
2012 | 0.152 |
2013 | 0.190 |
2014 | 0.195 |
2015 | 0.153 |
2016 | 0.143 |
2017 | 0.148 |
2018 | 0.112 |
2019 | 0.134 |
2020 | 0.132 |
2021 | 0.141 |
2022 | 0.123 |
2023 | 0.137 |
Evolution of the number of published documents. All types of documents are considered, including citable and non citable documents.
Year | Documents |
---|---|
2007 | 70 |
2008 | 70 |
2009 | 68 |
2010 | 73 |
2011 | 237 |
2012 | 92 |
2013 | 185 |
2014 | 159 |
2015 | 107 |
2016 | 66 |
2017 | 87 |
2018 | 209 |
2019 | 241 |
2020 | 285 |
2021 | 325 |
2022 | 256 |
2023 | 211 |
This indicator counts the number of citations received by documents from a journal and divides them by the total number of documents published in that journal. The chart shows the evolution of the average number of times documents published in a journal in the past two, three and four years have been cited in the current year. The two years line is equivalent to journal impact factor ™ (Thomson Reuters) metric.
Cites per document | Year | Value |
---|---|---|
Cites / Doc. (4 years) | 2007 | 0.000 |
Cites / Doc. (4 years) | 2008 | 0.214 |
Cites / Doc. (4 years) | 2009 | 0.236 |
Cites / Doc. (4 years) | 2010 | 0.370 |
Cites / Doc. (4 years) | 2011 | 0.363 |
Cites / Doc. (4 years) | 2012 | 0.290 |
Cites / Doc. (4 years) | 2013 | 0.447 |
Cites / Doc. (4 years) | 2014 | 0.445 |
Cites / Doc. (4 years) | 2015 | 0.316 |
Cites / Doc. (4 years) | 2016 | 0.265 |
Cites / Doc. (4 years) | 2017 | 0.255 |
Cites / Doc. (4 years) | 2018 | 0.210 |
Cites / Doc. (4 years) | 2019 | 0.237 |
Cites / Doc. (4 years) | 2020 | 0.259 |
Cites / Doc. (4 years) | 2021 | 0.330 |
Cites / Doc. (4 years) | 2022 | 0.311 |
Cites / Doc. (4 years) | 2023 | 0.313 |
Cites / Doc. (3 years) | 2007 | 0.000 |
Cites / Doc. (3 years) | 2008 | 0.214 |
Cites / Doc. (3 years) | 2009 | 0.236 |
Cites / Doc. (3 years) | 2010 | 0.370 |
Cites / Doc. (3 years) | 2011 | 0.384 |
Cites / Doc. (3 years) | 2012 | 0.288 |
Cites / Doc. (3 years) | 2013 | 0.480 |
Cites / Doc. (3 years) | 2014 | 0.453 |
Cites / Doc. (3 years) | 2015 | 0.330 |
Cites / Doc. (3 years) | 2016 | 0.235 |
Cites / Doc. (3 years) | 2017 | 0.226 |
Cites / Doc. (3 years) | 2018 | 0.135 |
Cites / Doc. (3 years) | 2019 | 0.257 |
Cites / Doc. (3 years) | 2020 | 0.274 |
Cites / Doc. (3 years) | 2021 | 0.320 |
Cites / Doc. (3 years) | 2022 | 0.242 |
Cites / Doc. (3 years) | 2023 | 0.326 |
Cites / Doc. (2 years) | 2007 | 0.000 |
Cites / Doc. (2 years) | 2008 | 0.214 |
Cites / Doc. (2 years) | 2009 | 0.236 |
Cites / Doc. (2 years) | 2010 | 0.355 |
Cites / Doc. (2 years) | 2011 | 0.426 |
Cites / Doc. (2 years) | 2012 | 0.294 |
Cites / Doc. (2 years) | 2013 | 0.471 |
Cites / Doc. (2 years) | 2014 | 0.466 |
Cites / Doc. (2 years) | 2015 | 0.299 |
Cites / Doc. (2 years) | 2016 | 0.150 |
Cites / Doc. (2 years) | 2017 | 0.191 |
Cites / Doc. (2 years) | 2018 | 0.176 |
Cites / Doc. (2 years) | 2019 | 0.287 |
Cites / Doc. (2 years) | 2020 | 0.253 |
Cites / Doc. (2 years) | 2021 | 0.253 |
Cites / Doc. (2 years) | 2022 | 0.228 |
Cites / Doc. (2 years) | 2023 | 0.310 |
Evolution of the total number of citations and journal's self-citations received by a journal's published documents during the three previous years. Journal Self-citation is defined as the number of citation from a journal citing article to articles published by the same journal.
Cites | Year | Value |
---|---|---|
Self Cites | 2007 | 0 |
Self Cites | 2008 | 1 |
Self Cites | 2009 | 3 |
Self Cites | 2010 | 21 |
Self Cites | 2011 | 19 |
Self Cites | 2012 | 4 |
Self Cites | 2013 | 60 |
Self Cites | 2014 | 28 |
Self Cites | 2015 | 8 |
Self Cites | 2016 | 2 |
Self Cites | 2017 | 9 |
Self Cites | 2018 | 3 |
Self Cites | 2019 | 15 |
Self Cites | 2020 | 15 |
Self Cites | 2021 | 27 |
Self Cites | 2022 | 21 |
Self Cites | 2023 | 24 |
Total Cites | 2007 | 0 |
Total Cites | 2008 | 15 |
Total Cites | 2009 | 33 |
Total Cites | 2010 | 77 |
Total Cites | 2011 | 81 |
Total Cites | 2012 | 109 |
Total Cites | 2013 | 193 |
Total Cites | 2014 | 233 |
Total Cites | 2015 | 144 |
Total Cites | 2016 | 106 |
Total Cites | 2017 | 75 |
Total Cites | 2018 | 35 |
Total Cites | 2019 | 93 |
Total Cites | 2020 | 147 |
Total Cites | 2021 | 235 |
Total Cites | 2022 | 206 |
Total Cites | 2023 | 282 |
Evolution of the number of total citation per document and external citation per document (i.e. journal self-citations removed) received by a journal's published documents during the three previous years. External citations are calculated by subtracting the number of self-citations from the total number of citations received by the journal’s documents.
Cites | Year | Value |
---|---|---|
External Cites per document | 2007 | 0 |
External Cites per document | 2008 | 0.200 |
External Cites per document | 2009 | 0.214 |
External Cites per document | 2010 | 0.269 |
External Cites per document | 2011 | 0.294 |
External Cites per document | 2012 | 0.278 |
External Cites per document | 2013 | 0.331 |
External Cites per document | 2014 | 0.399 |
External Cites per document | 2015 | 0.312 |
External Cites per document | 2016 | 0.231 |
External Cites per document | 2017 | 0.199 |
External Cites per document | 2018 | 0.123 |
External Cites per document | 2019 | 0.215 |
External Cites per document | 2020 | 0.246 |
External Cites per document | 2021 | 0.283 |
External Cites per document | 2022 | 0.217 |
External Cites per document | 2023 | 0.298 |
Cites per document | 2007 | 0.000 |
Cites per document | 2008 | 0.214 |
Cites per document | 2009 | 0.236 |
Cites per document | 2010 | 0.370 |
Cites per document | 2011 | 0.384 |
Cites per document | 2012 | 0.288 |
Cites per document | 2013 | 0.480 |
Cites per document | 2014 | 0.453 |
Cites per document | 2015 | 0.330 |
Cites per document | 2016 | 0.235 |
Cites per document | 2017 | 0.226 |
Cites per document | 2018 | 0.135 |
Cites per document | 2019 | 0.257 |
Cites per document | 2020 | 0.274 |
Cites per document | 2021 | 0.320 |
Cites per document | 2022 | 0.242 |
Cites per document | 2023 | 0.326 |
International Collaboration accounts for the articles that have been produced by researchers from several countries. The chart shows the ratio of a journal's documents signed by researchers from more than one country; that is including more than one country address.
Year | International Collaboration |
---|---|
2007 | 8.57 |
2008 | 7.14 |
2009 | 13.24 |
2010 | 8.22 |
2011 | 5.49 |
2012 | 4.35 |
2013 | 8.65 |
2014 | 6.29 |
2015 | 9.35 |
2016 | 6.06 |
2017 | 5.75 |
2018 | 9.57 |
2019 | 6.64 |
2020 | 9.12 |
2021 | 3.69 |
2022 | 1.95 |
2023 | 2.84 |
Not every article in a journal is considered primary research and therefore "citable", this chart shows the ratio of a journal's articles including substantial research (research articles, conference papers and reviews) in three year windows vs. those documents other than research articles, reviews and conference papers.
Documents | Year | Value |
---|---|---|
Non-citable documents | 2007 | 0 |
Non-citable documents | 2008 | 4 |
Non-citable documents | 2009 | 7 |
Non-citable documents | 2010 | 11 |
Non-citable documents | 2011 | 10 |
Non-citable documents | 2012 | 10 |
Non-citable documents | 2013 | 10 |
Non-citable documents | 2014 | 15 |
Non-citable documents | 2015 | 12 |
Non-citable documents | 2016 | 8 |
Non-citable documents | 2017 | 0 |
Non-citable documents | 2018 | 0 |
Non-citable documents | 2019 | 0 |
Non-citable documents | 2020 | 0 |
Non-citable documents | 2021 | 0 |
Non-citable documents | 2022 | 0 |
Non-citable documents | 2023 | 0 |
Citable documents | 2007 | 0 |
Citable documents | 2008 | 66 |
Citable documents | 2009 | 133 |
Citable documents | 2010 | 197 |
Citable documents | 2011 | 201 |
Citable documents | 2012 | 368 |
Citable documents | 2013 | 392 |
Citable documents | 2014 | 499 |
Citable documents | 2015 | 424 |
Citable documents | 2016 | 443 |
Citable documents | 2017 | 332 |
Citable documents | 2018 | 260 |
Citable documents | 2019 | 362 |
Citable documents | 2020 | 537 |
Citable documents | 2021 | 735 |
Citable documents | 2022 | 851 |
Citable documents | 2023 | 866 |
Ratio of a journal's items, grouped in three years windows, that have been cited at least once vs. those not cited during the following year.
Documents | Year | Value |
---|---|---|
Uncited documents | 2007 | 0 |
Uncited documents | 2008 | 59 |
Uncited documents | 2009 | 115 |
Uncited documents | 2010 | 149 |
Uncited documents | 2011 | 158 |
Uncited documents | 2012 | 301 |
Uncited documents | 2013 | 279 |
Uncited documents | 2014 | 373 |
Uncited documents | 2015 | 349 |
Uncited documents | 2016 | 376 |
Uncited documents | 2017 | 293 |
Uncited documents | 2018 | 234 |
Uncited documents | 2019 | 299 |
Uncited documents | 2020 | 437 |
Uncited documents | 2021 | 585 |
Uncited documents | 2022 | 711 |
Uncited documents | 2023 | 664 |
Cited documents | 2007 | 0 |
Cited documents | 2008 | 11 |
Cited documents | 2009 | 25 |
Cited documents | 2010 | 59 |
Cited documents | 2011 | 53 |
Cited documents | 2012 | 77 |
Cited documents | 2013 | 123 |
Cited documents | 2014 | 141 |
Cited documents | 2015 | 87 |
Cited documents | 2016 | 75 |
Cited documents | 2017 | 39 |
Cited documents | 2018 | 26 |
Cited documents | 2019 | 63 |
Cited documents | 2020 | 100 |
Cited documents | 2021 | 150 |
Cited documents | 2022 | 140 |
Cited documents | 2023 | 202 |
Evolution of the percentage of female authors.
Year | Female Percent |
---|---|
2007 | 32.23 |
2008 | 32.14 |
2009 | 30.77 |
2010 | 34.23 |
2011 | 31.45 |
2012 | 22.15 |
2013 | 32.15 |
2014 | 38.05 |
2015 | 31.10 |
2016 | 32.11 |
2017 | 25.37 |
2018 | 41.90 |
2019 | 38.88 |
2020 | 34.97 |
2021 | 29.63 |
2022 | 31.96 |
2023 | 30.13 |
Evolution of the number of documents cited by public policy documents according to Overton database.
Documents | Year | Value |
---|---|---|
Overton | 2007 | 0 |
Overton | 2008 | 0 |
Overton | 2009 | 0 |
Overton | 2010 | 0 |
Overton | 2011 | 0 |
Overton | 2012 | 0 |
Overton | 2013 | 0 |
Overton | 2014 | 0 |
Overton | 2015 | 0 |
Overton | 2016 | 0 |
Overton | 2017 | 0 |
Overton | 2018 | 0 |
Overton | 2019 | 0 |
Overton | 2020 | 0 |
Overton | 2021 | 0 |
Overton | 2022 | 0 |
Overton | 2023 | 0 |
Evoution of the number of documents related to Sustainable Development Goals defined by United Nations. Available from 2018 onwards.
Documents | Year | Value |
---|---|---|
SDG | 2018 | 79 |
SDG | 2019 | 76 |
SDG | 2020 | 109 |
SDG | 2021 | 122 |
SDG | 2022 | 106 |
SDG | 2023 | 86 |
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( Vol 28 , Issue 02 )
05 Jul 2024
( Vol 28 , Issue 01 )
30 Jun 2024
Research Journal of Chemistry and Environment (ISSN:0972-0626) is a monthly peer-reviewed scopus-indexed journal from 2007 to Present. The publisher of this journal is the Journal of International Congress of Chemistry and Environment. RJCE is committed to gathering and disseminating excellent research achievements.The journal welcomes all kind of research/review/abstract papers regarding Engineering subjects including Earth and Planetary Sciences,Environmental Science,Chemical Engineering,Agricultural and Biological Sciences,Renewable Energy,Biochemistry.
All Subjects of Engineering:
- 1. Chemical Engineering and General Chemistry
- 2. Agricultural and Biological Sciences
- 3. Earth and Planetary Sciences
- 4. Biochemistry, Genetics and Molecular Biology
- 5. Environmental Science and Engineering
- RJCE-27-05-2024-1170
Spinel Nano ferrites: Synthesis and Some Biomedical Applications- A Comprehensive Review
Pristine and metal-substituted soft spinel ferrites have received great attention from interdisciplinary research organizations across various disciplines of science and technology throughout the last years due to their versatile applications in industrial, military, and biomedical fields. The Physical, chemical, electric, and magnetic properties of nanomagnetic spinel ferrite materials used in industrial and biomedical applications are strongly affected by their size and surface area which can be manipulated by a suitable synthesis method. Biomedical applications of soft spinel ferrites mainl
- RJCE-16-05-2024-1167
Reforestation after clear cutting on the forest fund lands of the taiga forest zone in Russia
Forests are one of the most extensive terrestrial ecosystems which provides habitat for a vast array of plant and animal species. Over several centuries of human activities, the total forest area has decreased, and now forests cover 31% of the land area. Approximately half the forest area is relatively intact, and more than one third is occupied by primary forest. Nearly half of the world’s forests grow in five countries: Brazil, Canada, China, the Russian Federation, and the United States of America [9]. The importance of reforestation is undeniable since timber harvesting is gathering pace
- RJCE-06-05-2024-1166
In Silico Study of Glyphosate Substitute against Rice Weeds as Bioherbicides Candidate
Weeds on rice plants have a lot of negative impacts on plant productivity. The majority of approaches in controlling weeds in rice used herbicides including the use of glyphosate as a synthetic herbicide. However, using glyphosate in the long-term results in soil and water pollution accumulation, resulting in decreased soil fertility. This study aims to find new herbicide candidates by mimicking glyphosate's mechanism in inhibiting EPSP synthase, ACCase and photosystem II found in three types of weeds (broad-leaved and grasses and sedges). Representatives of the three types are Monochor
- RJCE-06-05-2024-1165
Recovery of Lithium from Waste Lithium-ion Batteries-A Review
Lithium-ion batteries (LIBs) are a widely used energy storage technology as they possess high energy density and are characterized by the reversible intercalation/deintercalation of Li ions between electrodes. The rapid development of LIBs has led to increased production efficiency and lower costs for manufacturers, resulting in a growing demand for batteries and their application across various industries, particularly in different types of vehicles. In order to meet the demand for LIBs while minimizing climate-impacting emissions, the reuse, recycling, and repurposing of LIBs is a critica
- RJCE-06-05-2024-1164
Surface Functionalized Eco-friendly Plant Seeds in the Confiscating Process of Toxic Metal ions from Aqueous Environment
Dyes (colorants) are used in many industrial applications, and effluents of several industries contain toxic dyes. Dyes exhibit toxicity to humans, aquatic organisms, and the environment. Therefore, dyes containing wastewater must be properly treated before discharging to the surrounding water bodies. Among several water treatment technologies, adsorption is the most preferred technique to sequester dyes from water bodies. Many studies have reported the removal of dyes from wastewater using biochar produced from different biomass, e.g., algae and plant biomass, forest, and domestic residues
- RJCE-06-05-2024-1163
Luminescence Properties of Ce-Doped Di-Calcium Magnesium Disilicate Ca2MgSi2O7:4 mol%Ce
Ion doping has rendered mesoporous structures important materials in the field of tissue engineering, as apart from drug carriers, they can additionally serve as regenerative materials. The purpose of the present study was the synthesis, characterization and evaluation of the effect of artemisinin (ART)-loaded cerium-doped mesoporous calcium silicate nanopowders (NPs) on the hemocompatibility and cell proliferation of human periodontal ligament fibroblasts (hPDLFs). Mesoporous NPs were synthesized in a basic environment via a surfactant assisted cooperative self-assembly process and were ch
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Salt Stress Tolerance in Broad Bean (Vicia Faba L.) and the Interaction of NaCl and Phytohormones on the Root, Biochemical Characters in Greenhouse and in the Field
Faba bean (Vicia faba L.) is an economically important crop cultivated globally for fulfilling human requirements. However, the productivity of the faba bean has declined due to poor management of soil, particularly under salt stress. Salt stress is a major constraint to crop productivity worldwide. Therefore, the objective of the present investigation is to check the behavior of faba bean genotypes on the basis of morphological and biochemical traits in response to salinity. In this study, we studied seven different treatments (including control) applied to faba bean under salt stress. Bio
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