RSC Advances Blog

Welcome to our new Associate Editors: Shivani Bhardwaj Mishra and Chiharu Tokoro

10 Oct 2022

By Serra Arslancan Sengelen, Assistant Editor.

The RSC Advances team are delighted to welcome Professor Shivani Bhardwaj Mishra and Professor Chiharu Tokoro as our new Associate Editors!

Professor Shivani Bhardwaj Mishra, University of South Africa

Research Areas: Sol-gel technology, nanomaterials, ceramics and water treatment.

Professor Shivani Bhardwaj Mishra is Founder and Director of Academy of Nanotechnology and Waste water Innovations [ANWWI]. She is serving as an Adjunct Professor at Hebei University of Science and Technology, China and as International Advisory Board member at TU Wien, Austria. This has boosted her academic career allowing her to expand her research expertise with joint projects, publications and knowledge exchange activities. Over twenty years of her academic experience accounts for teaching organic chemistry and research in the field of nanomaterials, nanocomposites and its various environmental and material applications. Besides, her core research interest is waste valorization to promote sustainability and circular economy growth. Her educational background involves a PhD in Chemistry from Jamia Millia Islamia, Master of Science [Organic Chemistry] and Bachelor of Science [Chemistry] from University of Madras, India.

For her outstanding profile and academic achievements, she was inducted as prestigious Fellow member of Royal Society of Chemistry in 2015 and is a member of American Chemical Society, USA, South African Chemical Society and many others. She is the recipient of many accolades and among these are, Distinguished Woman Scientist award from Department of Science and Technology, South Africa, Woman in Research Leadership Award from University of South Africa and recognised as Top 10 researchers at University of Johannesburg. She is Associate Editor for Frontiers for Green and sustainable chemistry and Guest Associate Editor for Medicinal and Pharmaceutical chemistry, editorial board member and reviewer for various journals. She has more than hundred publications in renowned journals.

Read Shivani’s recent RSC Advances publication:

Mechanistic pathways for the degradation of SMX drug and floatation of degraded products using F-Pt co-doped TiO₂ photocatalysts, M Jahdi, SB Mishra, EN Nxumalo, SD Mhlanga, AK Mishra, RSC Adv., 2020, 10, 27662-27675, DOI: https://doi.org/10.1039/D0RA05009A

Professor Chiharu Tokoro, Waseda University

Research Areas: Mineral processing, resource recycling, environmental purification, powder technologies and chemical engineering.

Professor Chiharu Tokoro received her Dr. Eng from the University of Tokyo in 2003. She then went on to work at Waseda University where she has currently held the position of Professor since 2015. From 2021 she also became a Professor at Professor at the School of Engineering at the University of Tokyo.

Professor Chiharu Tokoro is currently on the Editorial Board for Elsevier’s Advanced Powder Technology. She has won the 2020 Waseda Research Award, was a finalist for the Falling Walls Science Breakthroughs of the Year 2021 in Engineering and Technology and won the Waseda University Best Paper award in 2021.

The Tokoro Lab is currently focusing their efforts into three research areas, developing recycling systems, using powder simulations to explore various powder processes and developing technologies for recovering metals from wastewater.

Submit to RSC Advances today! Check out our author guidelines for information on our article types or find out more about the advantages of publishing in a Royal Society of Chemistry journal.

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Call for papers: Nano and microscale modifications of biomaterials

10 Oct 2022

By Sarah Rainford, Deputy Editor.

RSC Advances is delighted to announce a new themed collection titled ‘Nano and microscale modifications of biomaterials’. This collection is Guest Edited by Professor Andrzej Zeliński (Gdańsk University of Technology, Poland) and Professor Beata Majkowska-Marzec (Gdańsk University of Technology, Poland).

Scope:

The rapid development of research in biomaterials in recent years can be noticed. On the other side, even obtaining a new or improved biomaterial, or a novel fabrication method, is a difficult task, and as a rule, such materials must be created and possess specific properties. The bulk properties determine some mechanical and some physical properties, but also an interface between a biomaterial and a human environment, bones, and tissue, decides on biocompatibility, adhesion between an implant and a tissue, surface hardness, and Young`s modulus, and most importantly, bioactivity and cytotoxicity. Therefore, the role of the surface is the most important among all considered features of the biomaterial.

This themed collection in RSC Advances aims to demonstrate the most recent advances in nano and micro-scale modifications of biomaterials. Such surface treatments can be performed by several techniques such as fine polishing, acidic and alkaline etching, anodic and micro-arc oxidation, and ion bombardment of the surface outer layer, and as numerous ceramic, polymer, metallic, and in particular composite coatings. Each of them can possess different microstructure, thickness, adhesion, wettability, corrosion behaviour, bioactivity, cytotoxicity, and antibacterial efficiency, depending on process parameters. It is already proven that the most important features are microstructure and topography, in nano and micro dimensions, and chemical and phase compositions of the surface layer and deposits. Therefore, research progress in this specific field can be highly diverse, as demonstrated by recent literature. In this special issue the emphasis is placed on the demonstration of links between nano and micro-scale surface modifications, and their effects on mechanical, chemical, physical, and biological properties.

How to submit:
Both Papers and Review articles will be considered for this issue. All submissions will be subject to an initial assessment by Associate Editors and, if suitable for the journal, they will be subject to rigorous peer review to meet the usual high standards of RSC Advances.

Our APC is among the lowest in the industry and there are no submission charges. Discounts and waivers are offered to authors from developing countries.

If you would like to submit to this issue the manuscript should be prepared according to our article guidelines and submitted via our online system anytime before the submission deadline of 15 June 2023. During submission, authors will be asked if they are submitting for a themed collection and should include the name of the themed collection. If you would like to submit but require additional time to prepare your article, please do let us know by contacting the journal.

RSC Advances Royal Society of Chemistry Submit to RSC Advances today! Check out our author guidelines for information on our article types or find out more about the advantages of publishing in a Royal Society of Chemistry journal.

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RSC Advances Popular Advances – an Interview with Takashi Morii

07 Oct 2022

By Serra Arslancan Sengelen, Assistant Editor.

We are very pleased to introduce Professor Takashi Morii, who is the corresponding author of the RSC Advances article, A two-step screening to optimize the signal response of an auto-fluorescent protein-based biosensor. The manuscript was well received by reviewers and was handpicked by our reviewers and handling editors to be part of our Popular Advances collection.

Professor Mori told us more about the work that went into this article and what he hopes to achieve in the future. You can explore other articles in our 2022 Popular Advances online collection here.

Meet the author:

Takashi Morii was born in 1959 in Hyogo, Japan. He studied Chemistry at Kyoto University (B. Eng., 1982, Ph.D. 1988) with Prof. T. Matsuura and Prof. I. Saito. He conducted postdoctoral research with Prof. J. K. Barton at Columbia University and California Institute of Technology. In 1992, he was appointed as an Assistant Professor at Kyoto Institute of Technology and subsequently moved to Institute for Chemical Research at Kyoto University. In 1998, he moved to Institute of Advanced Energy, Kyoto University, where he was promoted to Professor in 2005.

Could you briefly explain the focus of your article to the non-specialist (in one or two sentences only) and why it is of current interest?

Construction of an auto-fluorescent protein (AFP)-based biosensor consisting of a recognition, or a reaction, module and AFP often encounters difficulty owing to the lack of structural information for the recognition module and requirement of laborious tasks for functional optimization. This study describes a two-step screening strategy that allows facile optimization of the optical response of AFP-based biosensor for nitric oxide (NO), which is also applicable for many types of AFP-based biosensors.

How big an impact could your results potentially have?

Our two-step, first in silico and second in vitro, screening strategy provides a convenient and high-throughput screening method for the optimization of the signal response of AFP-based biosensors. Especially, our strategy has an advantage for cases when the detailed information on the structural change of recognition module is not available. AFP-based biosensors are quite useful in visualizing the dynamics of cellular important factors because of their suitability for high spatiotemporal resolution and long-time imaging. Our strategy would accelerate the development of various types of biosensors for the factors of interest in the cell.

Could you explain the motivation behind this study?

We have previously constructed a fusion of a segment of the putative NO-sensing module of the TRPC5 channel with enhanced green fluorescent protein (EGFP) to evaluate this putative NO-induced structural change in TRPC5. While the construct successfully detected the putative structural change by the reaction with NO as a change in the fluorescence intensity ratio of EGFP, the observed response was quite weak. We considered that the TRPC5 loop-EGFP construct could be converted to a cellular NO sensor by enhancing its response through the mutation and screening. In addition, developing a general strategy to construct AFP-based biosensors that visualize various kinds of second messengers would promote further investigation of signal transduction.

In your opinion, what are the key design considerations for your study?

An AFP-based biosensor is designed by conjugating an appropriate recognition or reaction module for a given target to an AFP transduction module. Structural changes in the recognition module induced by the recognition/reaction event are transduced to a change of fluorescence signal of AFP. To obtain usable AFP-based biosensors, many sensor candidates must be constructed and evaluated their responses, which are time consuming and required laborious tasks. We consider that a screening to select candidates showing larger structural changes at the reaction module upon the reaction based on in silico simulation in the first step would reduce these tasks. Structural change of the reaction modules of candidates are evaluated by root-mean-square-deviation (RMSD) of the coordinates for the backbone of reaction module between before and after the reaction based on in silico simulation.

Which part of the work towards this paper proved to be most challenging?

The most challenging part of this work is whether the in silico screening evaluated by using the RMSD values could select candidates with reasonable signal responses because it is very difficult to predict the exact structural change of candidates upon the reaction in silico. Fortunately, the second in vitro screening revealed that RMSD values could successfully provide indexes for the signal response of the candidates, although large RMSD values did not always correspond to the large signal response.

What aspect of your work are you most excited about at the moment?

It was quite exciting to find that the sensor candidates from the first in silico screening showed enhanced signals in the in vitro second screening. It was also exciting to confirm that a construct obtained from the two-step screening showed a reasonable signal response in living mammalian cells. This result demonstrated that our screening strategy can be applied to enhance the signal response sufficient for cellular applications.

What is the next step? What work is planned?

The reaction module of selected AFP-based biosensor changes its structure upon formation of a disulphide bond to emit the signal. We anticipated a certain selectivity for the disulphide bond formation by NO, but apparently the selected AFP-based biosensor showed similar response to NO and H₂O₂. The next step is to develop a convenient strategy to install a selectivity to NO and H₂O₂ on the AFP-based biosensor selected in this work.

A two-step screening to optimize the signal response of an auto-fluorescent protein-based biosensor

Shunsuke Tajima,^a Eiji Nakata,^a Reiko Sakaguchi,^b Masayuki Saimura,^a Yasuo Mori^c and Takashi Morii^*a

RSC Adv., 2022,12, 15407-15419

Submit to RSC Advances today! Check out our author guidelines for information on our article types or find out more about the advantages of publishing in a Royal Society of Chemistry journal.

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August 2022 RSC Advances Review Articles

28 Sep 2022

By Sarah Rainford, Deputy Editor.

Welcome to August’s Review round up!

Every month we update our 2022 Reviews in RSC Advances collection to showcase all of the review articles published in RSC Advances in 2022. Don’t forget to come back next month to check out our latest reviews.

We hope you enjoy reading and as always, all of our articles are open access so you can easily share your favourites online and with your colleagues.

Explore the full collection!

Browse a selection of our August reviews below:

Value-added materials recovered from waste bone biomass: technologies and applications
Abarasi Hart, Komonibo Ebiundu, Ebikapaye Peretomode, Helen Onyeaka, Ozioma Forstinus Nwabor and KeChrist Obileke
RSC Adv., 2022, 12, 22302-22330

The role of electrochemical biosensors in SARS-CoV-2 detection: a bibliometrics-based analysis and review
Shudan Mao, Li Fu, Chengliang Yin, Xiaozhu Liu and Hassan Karimi-Maleh
RSC Adv., 2022, 12, 22592-22607

Electrophilic halogenations of propargyl alcohols: paths to α-haloenones, β-haloenones and mixed β,β-dihaloenones
Pakorn Bovonsombat, Punyanuch Sophanpanichkul and Satreerat Losuwanakul
RSC Adv., 2022, 12, 22678-22694

Advanced developments in environmentally friendly lubricants for water-based drilling fluid: a review
Xiangyang Zhao, Daqi Li, Heming Zhu, Jingyuan Mab and Yuxiu An
RSC Adv., 2022, 12, 22853-22868

Heterocyclic compounds as a magic bullet for diabetes mellitus: a review
Umme Farwa and Muhammad Asam Raza
RSC Adv., 2022, 12, 22951-22973

Transition metal oxides as a cathode for indispensable Na-ion batteries
Archana Kanwade, Sheetal Gupta, Akash Kankane, Manish Kumar Tiwari, Abhishek Srivastava, Jena Akash Kumar Satrughna, Subhash Chand Yadav and Parasharam M. Shirage
RSC Adv., 2022, 12, 23284-23310

Insight into nanocrystal synthesis: from precursor decomposition to combustion
Buzuayehu Abebe, Dereje Tsegaye and H. C. Ananda Murthy
RSC Adv., 2022, 12, 24374-24389

Adipogenesis or osteogenesis: destiny decision made by mechanical properties of biomaterials
Ting Su, Mimi Xu, Feng Lu and Qiang Chang
RSC Adv., 2022, 12, 24501-24510

Submit to RSC Advances today! Check out our author guidelines for information on our article types or find out more about the advantages of publishing in a Royal Society of Chemistry journal.

Keep up to date with our latest Popular Advances, Reviews, Collections & more by following us on Twitter. You can also keep informed by signing up to our E-Alerts.

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August 2022 Popular Advances Articles

28 Sep 2022

By Sarah Rainford, Deputy Editor.

Welcome to August’s Popular Advances article round up!

Every month we update our 2022 RSC Advances Popular Advances Article Collection to showcase all of the articles selected by our reviewers and handling editors as Popular Advances in 2022. Don’t forget to come back next month to check out our latest Popular articles.

We hope you enjoy reading and as always, all of our articles are open access so you can easily share your favourites online and with your colleagues.

Explore the full collection!

Preparation of sodium silicate/red mud-based ZSM-5 with glucose as a second template for catalytic cracking of waste plastics into useful chemicals
Xiaofeng Wang, Fuwei Li, Asad Ali, Hengshuo Gu, Hongbing Fu, Zhixia Li and Hongfei Lin
RSC Adv., 2022, 12, 22161-22174

Eight new phenolic acids from the leaves of Illicium dunnianum and their osteoprotective activities
Hai-bo Li, Sen-ju Ma, Ying-xin Shan, Ting Li, Zhen-zhong Wang, Wei Xiao, Zuo-cheng Qiu and Yang Yu
RSC Adv., 2022, 12, 21655-21661

Synthesis of novel benzothiazole derivatives and investigation of their enzyme inhibitory effects against Alzheimer’s disease
Şevval Karaca, Derya Osmaniye, Begum Nurpelin Sağlık, Serkan Levent, Sinem Ilgın, Yusuf Özkay, Ahmet Çağrı Karaburun, Zafer Asım Kaplancıklı and Nalan Gundogdu-Karaburun
RSC Adv., 2022, 12, 23626-23636

The remarkable performance of a single iridium atom supported on hematite for methane activation: a density functional theory study
Kefale Wagaw Yizengaw, Tigist Ayalew Abay, Delele Worku Ayele and Jyh-Chiang Jiang
RSC Adv., 2022, 12, 23736-23746

Submit to RSC Advances today! Check out our author guidelines for information on our article types or find out more about the advantages of publishing in a Royal Society of Chemistry journal.

Keep up to date with our latest Popular Advances articles, Reviews, Collections & more by following us on Twitter. You can also keep informed by signing up to our E-Alerts.

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Advancing with Advances- How to Publish and not Perish (Part 8): More Publishing Tips from Academic Editors

28 Sep 2022

By Dr Zita Zachariah, Assistant Editor.

What happens to your paper after submission?

Step by step assessment of papers by academic editors at RSC Advances

Meet the Editor:

Professor Leyong Wang is based at the Institute for Supramolecular Chemistry and Smart Materials at Nanjing University. He handles papers in the areas of drug delivery, organic catalysis, synthesis & assembly of nanomaterials.

Professor Leyong Wang, Nanjing University

1. What is the most common reason for rejecting a manuscript without review?

“As the associate editor, I am very pleased to receive and read well-organized and well written manuscripts with high quality and exciting results. Therefore, we could provide more excellent papers to our audience of our journal. When I receive a new submission, I will read the manuscript quickly, normally in 5-10 minutes.

Firstly, the cover letter is read, which is regarded as the dialogue between authors and Associate editors. From the cover letter, I would like to know the important background and the exciting results of the present research. Why did the authors think the contents of this manuscript are exciting and challenging work?

Then, I will read the Graphic abstract and abstract quickly to know if the authors have clearly shown the exciting and informative results in present manuscript, and then if its contents lie inside the stated aims and scope of the journal.

Next, I will read the manuscript quickly while checking the References and Supporting information. From the introduction session, I would like to know if the authors establish the background of the problem studied and if the discussion only repeats the results but does not interpret them with the help of suitable literature cited. Some times, I realize that submitted manuscripts do not follow the format specified by our RSC journals. To be frank, it is a not pleasurable feeling during a quick reading. It means the authors did not read the authors guides of RSC Advances during the preparation of their manuscript. The authors should convince the associate editor, on behalf of readers to some degree, that the research is both sound and important through their writing.”

Last but not least, the professional supporting materials is very important to prevent the manuscript from being prescreened. I would like to see a clear and professional description of experimental procedures. For the synthetic experiments, the reported compounds here should be given the physical data, for example 1H NMR and 13C NMR with in professional style. I am sure, without the professional writing of experimental session and well updated suitable references, it is not easy to believe the reliability of results and discussion of a submitted manuscript.

I fully understand the feeling of authors when they receive the reject letter without reviewer reports. I do hope this kind of rapid decision is seen as favorable, because it allows the authors to quickly turn around the papers for submittal to a different journal, or to re-organize and re-write their manuscript for re-submission to us for consideration quickly. Of course, I do hope that this decision (Prescreen without review) will not discourage the authors from submitting the authors’ future work to us.

2. What is the best piece of advice you could give a submitting author?

“Writing a professional paper is a challenging job for our authors. In fact, it is not easy to give the best piece of advice. If I have to give one, in my opinion, in the process of writing research papers, it is would be better to give the draft outline of this research paper, knowing the highlights of your research papers, give a catchy and informative title to your research paper, then continue writing an abstract in a short paragraph which provides key information of submitting paper in an easy-to-grasp manner.

I also have a reminder here. Every author is suggested to read the pre-submitted manuscript carefully with the arrangement of the corresponding authors. This action could remove some typos and grammar errors, even such low-level “stupid” mistakes.
In the end, I always warmly welcome the authors to submit their high-quality, and exciting research work to our RSC Journals with good preparation and wish our authors continued success in their research endeavors.”

Meet the Editor:

Professor Andrea Pucci is a Full professor in Industrial Chemistry at the University of Pisa, Italy and handles papers related to solar energy, optical materials and nanomaterials.

1. What is the most common reason for rejecting a manuscript without review?

“Mainly due to the lack of novelties after a literature survey. Then, when the manuscript are reported with poor care in general of the RSC Advances regulations.””

2. What is the best piece of advice you could give a submitting author?

“In the introduction, clear statements of the novelties reported should be provided. Then, comparison of the main outcomes with those from the literature are appreciated.”

We hope that you find these insights from Professor Wang and Professor Pucci useful while writing your next paper!

Tune in next week for our final set of publishing tips from our academic Associate Editors !

You are welcome to send in any questions you have about peer-review or publishing to advances-rsc@rsc.org or post them on Twitter @RSCAdvances #AdvancingWithAdvances.

Don’t miss out on our previous tips on how to publish and not perish below:

Advancing with Advances (Part 1): featuring Professor Robert Baker (Trinity College Dublin)

Advancing with Advances (Part 2): featuring editorial insights from staff editors at RSC Advances

Advancing with Advances (Part 3): featuring Professor Brenno A.D. Neto (Universidade de Brasília, Brazil) Dr. Donna Arnold (University of Kent, UK), and Professor Nestor Mariano Correa (Universidad Nacional de Rio Cuarto, Argentina)

Advancing with Advances (Part 4): featuring Professor Megan O’Mara (Australian Institute for Bioengineering and Nanotechnology), Dr Giacomo Saielli (University of Padova, Italy), and Dr Pablo Denis (Universidad de la Republica Oriental del Uruguay)

Advancing with Advances (Part 5): featuring Professor Franck Dumeignil (University of Lille, France) Professor Xi Chen (Shanghai Jiao Tong University, China), and Professor Manojit Pal (Dr Reddy’s Institute of Life Sciences, India)

Advancing with Advances (Part 6): featuring Dr. Ranjit Koodali (Western Kentucky University, USA), Professor Luigi Vaccaro ( University of Perugia, Italy), and Professor Thierry Ollevier, (Université Laval, Québec Canada)

Advancing with Advances (Part 7): featuring Professor Steven McIntosh, Lehigh University, Pennsylvania, USA and Dr. Lubomír Rulíšek, Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences, Prague

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RSC Advances Popular Advances – an interview with Ali Rauf

26 Sep 2022

By Sarah Rainford, Deputy Editor.

We are very pleased to introduce Dr Ali Rauf, the corresponding author of the RSC Advances article Theoretical investigation of the optoelectronic response of highly correlated Cu₃P photocatalyst. This paper became one of the newest additions to our Popular Advances collection. The Popular Advances collection is a selection of well-received RSC Advances articles, handpicked by our reviewers and handling editors.

Ali told us more about the work that went into this article and what he hopes to achieve in the future. If you would like to explore more of our Popular Advances, please find the full online collection here.

Meet the Author:

Ali Rauf presently works as Assistant Professor in the Department of Chemistry and Chemical Engineering, School of Science and Engineering, LUMS. Ali completed his Ph.D. in Chemical Engineering from Sungkyunkwan University, South Korea in 2018, and is now the PI of the Energy Materials groups at LUMS who specialize in materials design for energy environmental applications. During the initial years of Ali’s career, he has been more focused on experimental aspects of material design but over the period of time, he has realized the importance of theoretical study that actually compliments experimental results. Ali and his group have started studying various semiconductors using various DFT based approximations to find a theoretical explanation of experimental results. Ali and his group are very excited about this overlap between theoretical knowledge and experimentation, and will be employing DFT for the theoretical screening of suitable semiconductor materials for catalytic applications before the experimentation phase in any upcoming projects.

Could you briefly explain the focus of your article to the non-specialist (in one or two sentences only) and why it is of current interest?

The study focuses on finding the electronic and optical properties of a Cu₃P semiconductor computationally using theoretical methods like Density Functional Theory (DFT). Moreover, advanced methods like the Bethe-Salpeter equation (BSE) were also used to find the optical properties comprising excitonic effects.

How big an impact could your results potentially have?

Although Cu₃P has found applications in visible light photocatalysis, theoretically, its optoelectronic response had not been extensively studied. We employed advanced theories (BSE and BSE@hyhrid functional) to understand the underlying electronic structure. These properties are vital to understanding Cu₃P better and fine-tuning it for green energy applications.

Could you explain the motivation behind this study?

The aim was to perform the theoretical study on Cu₃P and compare the data with the experimentally obtained absorption data. We wanted to go beyond Independent Particle Approximation (IPA) and consider electron-hole interaction via BSE for the studied semiconductor. The BSE was solved not only after DFT + U, but also on top of hybrid functional (BSE@hybrid) to see the effect of the starting point in our optical results.

In your opinion, what are the key design considerations for your study.

The first thing was to select the material to probe. After the literature survey, we learned what was missing and determined our computational demand. We needed to apply several approximations in our study requiring various levels of computational resources, so the HPC cluster was used from the very start.

Which part of the work towards this paper proved to be most challenging?

1: Computational cost: When performing hybrid functional calculations, we faced memory issues. Similarly, BSE can quickly lead to such issues if we increase the convergence parameters in the BSE kernel.

2: Moreover, in selecting the Hubbard potentials (U term in DFT + U), we tried to find these parameters from the first-principle methods. However, the current theory in the QE code was not sufficient for the full-shell d-electron systems (like Cu). Therefore, we had to go back to the empirical approach in DFT + U, where we arbitrarily picked “U” values for our system.

What aspect of your work are you most excited about at the moment?

In theory, we have seen such power to turn on/off interactions by applying approximations, when BSE (excitonic interactions turned on) performs much better than IPA (Independent Particle – without excitons). So, to get close to experimental absorption, excitonic physics is important in semiconductors (apart from low-dimensional systems).

What is the next step? What work is planned?

We plan to form the heterostructure model of Cu₃P with other suitable semiconductor photocatalysts to fine-tune the properties of the overall system or introducing the impurity to obtain something similar.

Theoretical investigation of the optoelectronic response of highly correlated Cu₃P photocatalyst

Haseeb Ahmad, Ali Rauf and Shoaib Muhammad

RSC Adv., 2022, 12, 20721-20726

Submit to RSC Advances today! Check out our author guidelines for information on our article types or find out more about the advantages of publishing in a Royal Society of Chemistry journal.

Keep up to date with our latest Popular Advances, Reviews, Collections & more by following us on Twitter. You can also keep informed by signing up to our E-Alerts.

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RSC Advances Emerging Investigators series 2021 – Author spotlight

23 Sep 2022

By Sarah Rainford, Deputy Editor.

Welcome to our Emerging Investigator Series 2021. This series showcases some of the very best work from chemists in the early stages of their independent careers. In keeping with the theme of RSC Advances as a cross-cutting chemistry journal, in this inaugural issue with the help of our Series Editor Professor James Batteas, 23 papers were published as part of the collection spanning the breadth of chemistry on topics ranging from the development and application of analytical tools and devices for chemical analysis, to the design and synthesis of bioactive materials for disease treatments, to catalysis and synthesis of new materials. You can read all about the contributions in this accompanying Editorial, prepared by the 2021 Series Editor James Batteas.

We would like to take this opportunity to highlight an author from the series, Dr Abisola Egbedina. We interviewed Abisola to find out more about her area of research and her contribution to the series.

Green synthesis of ZnO coated hybrid biochar for the synchronous removal of ciprofloxacin and tetracycline in wastewater
Abisola O. Egbedina, Kayode O. Adebowale, Bamidele I. Olu-Owolabi, Emmanuel I. Unuabonah and Morenike O. Adesina
RSC Adv., 2021, 11, 18483-18492

Abisola Egbedina completed her PhD in Industrial Chemistry at the University of Ibadan, Nigeria, under the supervision of Professor Kayode Adebowale and Professor Bamidele Olu-Owolabi. She earned her bachelor’s degree in Industrial Chemistry from Bowen University, Iwo, Nigeria (2009) and her master’s degree in Industrial Chemistry from the University of Ibadan (2012). She received the 2017 Commonwealth Science Conference follow-on grant from the Royal Society of Chemistry in 2018 to conduct research at the University of Toronto, Canada, under the supervision of Professor Ya-Huei (Cathy) Chin. Her research interests lie in the synthesis of low-cost and environmentally benign materials for applications in wastewater treatment. Specifically, she focuses on tuning the surface properties of these materials for optimum selectivity and efficiency. Her current research focuses on the synthesis of carbon materials from biomass for the removal of pharmaceuticals and other emerging contaminants from water. She has a number of peer-reviewed publications in international journals. She has also presented some of her research findings at various local and international conferences. Abisola Egbedina was appointed as an Assistant Lecturer in the Department of Chemistry, University of Ibadan in November 2016, and is currently a Lecturer II. Besides teaching and carrying out research, Abisola loves reading novels, watching movies, swimming and dancing.

Could you briefly explain the focus of your article to the non-specialist (in one or two sentences only) and why it is of current interest?
The goal of the study in the research article was to remove antibiotic contaminants from water sources utilizing an adsorption approach and low-cost, environmentally benign adsorbents.
Antibiotic resistance in organisms has been linked to the presence of these contaminants. Antibiotic resistance is increasing all over the world at an alarming rate, making common infectious diseases such as pneumonia, tuberculosis, blood poisoning and gonorrhoea more difficult to treat. The healthcare system has also been strained because of this. As a result, this research topic is timely since it aids in addressing these issues by looking for strategies to minimize the quantities of these harmful pollutants in the environment.

How big an impact could your results potentially have?
The findings described in the journal are just one in a series of studies that could lead to the identification of a cheaper alternative to activated carbon, which is now the most widely used and also the most expensive. Activated carbon is currently used in wastewater treatment plants and portable drinking water treatment systems. This raises the overall treatment cost due to its high cost. Demonstrating the effectiveness of the adsorbents presented in this work for a wide range of pollutants and their subsequent acceptance could result in lower water treatment costs and greater accessibility to clean water for everyone.

Could you explain the motivation behind this study?
In Nigeria, kaolinite clay is the most common clay mineral. However, because it is a 1:1 clay it is non-expandable and hence has a low cation exchange capacity. The notion of mixing it with biomass arose as a result of this. Biomass has been widely used to remove pollutants from aqueous media, but its efficiency is rather low when compared to other materials and it frequently presents the problem of bleeding and separation difficulties. The goal was to see if by combining these two materials, the overall efficiency might be increased. Indeed, because this combination (kaolinite clay and pawpaw seeds) was proven to boost the heavy metal adsorption capability, we chose to use it to remove organic contaminants. We also used coconut husk instead of pawpaw seeds to test how this affected the overall results.

In your opinion, what are the key design considerations for your study?
The initial priority, I believe, was to develop adsorbents that are more cost-effective and efficient than activated carbon, which is currently the industry standard. We did so by employing a system that ensured appropriate energy and reagent utilization and manufacturing. These are, in my opinion, critical points to examine as the world grapples with the effects of climate change and aims to adjust to conducting research in a “green” manner.

Which part of the work towards this paper proved to be most challenging?
The analysis would be the most challenging aspect of the investigation. Accessing modern analytical instruments for the detection of pollutants at concentrations close to those seen in real water systems was not just expensive but unavailable. Finally, we had to use UV-Vis spectroscopy to determine this parameter which is accurate but has a limited detection limit when compared with LC-MS.

What aspect of your work are you most excited about at the moment?
It is a wonderful feeling to finally have your study published and available to millions of people. This comes after months of hard work in the lab and multiple drafts of the manuscript. What excites me most is seeing that others find the work intriguing enough to read. Individuals from all around the world have requested copies of my article. I also look at the number of citations and downloads and feel like I have accomplished something meaningful.

How has your research evolved from your first article to this particular article?
The use of watermelon rind as a stabilizing agent for magnetite for the removal of pollutants from water sources was the subject of my first article. Following that, I have been curious to investigate what additional effects modifying these biomasses with other low-cost and widely available natural materials, such as clay, has on the adsorption of these contaminants. It is envisaged that the modifications will give synergistic enhancement of these materials’ beneficial properties, ultimately resulting in increased adsorption capacity.

What is the next step? What work is planned?
Currently, I am working on a project that entails the application of low-cost adsorbents for the removal of organic contaminants from real-life industrial and hospital effluents to examine how well they perform in real-world environmental conditions. For my postdoctoral research, I am working on a proposal to examine how these adsorbents may be used to clean drinking water in households quickly, efficiently and at a cheap cost. The goal is to provide safe and clean drinking water to individuals at all levels without the need for expensive and time-consuming treatment.

Why did you want to publish in RSC Advances?
I chose RSC Advances because I wanted to publish in a high-quality publication that featured research in all fields of Chemistry, ensuring that my article would reach a wider audience. RSC Advances made it possible for me to publish open access by waiving the article processing charge [this is part of our commitment to waive the article processing charge for corresponding authors based at Research4Life countries, both groups A and B]. My research article’s readership and impact will grow as a result of its open access policy.

What are your thoughts on open access publishing?
Open access publishing, in my opinion, encourages access to free, high-quality and valuable research information, particularly for academics in developing countries who otherwise would be unable to obtain it. Open access, on the other hand, can require authors to pay to have their articles published which might be a problem in circumstances when research is primarily self-funded.

RSC Advances Royal Society of Chemistry

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Advancing with Advances- How to Publish and not Perish (Part 7): More Publishing Tips from Academic Editors

08 Sep 2022

By Kate Jones, Assistant Editor.

What Can You Do to Improve Your Manuscript?

Two Experienced Associate Editors offer words of Advice.

This week we are going to hear from two more Associate Editors who offer their useful advise in how to improve your manuscripts chances of acceptance.

Meet the Editor:

Professor Steven McIntosh is based at the Department of Chemical and Biomolecular Engineering at Lehigh University in Pennsylvania, USA. He handles papers focused on electrochemistry and catalysis.

Professor Steven McIntosh, Lehigh University, Pennsylvania, USA

What is the most common reason for rejecting a manuscript without review?

There are a few reasons I reject manuscripts without review. The most common is a lack of fit for the journal with the manuscript not describing a true advance in chemistry. Some manuscripts fall down at the ”advance’ category in that they report work that is reproducing well-established results or appearing as a more preliminary investigation rather than a thorough investigation in a new area. Other manuscripts are better suited to specialized journals in other fields, I commonly reject manuscripts that are more focused on mechanical or chemical engineering topics rather than chemistry.

The other reason I reject manuscripts without review is when the manuscript clearly does not meet the depth of study required for the journal. Some submitted manuscripts contain experimental results without a supportive contextual discussion and literature review. A manuscript should have a narrative theme that describes and supports the claimed scientific advance.

What is the best piece of advice you could give a submitting author?

My advice is to clearly make the case that the work is an advance over previous studies. This requires the author to describe the existing state of the art understanding, methodology, or performance level and then clearly show that their work advances beyond this. This requires comparison between their work and the existing state of the art in a clearly presented set of results. I’d also say not to forget to establish trends in your experimental data and provide negative tests. This can be as simple as providing data showing performance in the presence/absence of individual components or as a function of composition. Often these trends and comparisons are the key to establishing the purported advance in our understanding.

Meet the Editor:

Dr. Lubomír Rulíšek is based at the Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences, Prague (IOCB). He regularly handles manuscripts in computational and theoretical chemistry.

Dr. Lubomír Rulíšek, Institute of Organic Chemistry and Biochemistry of the Czech Academy of Sciences, Prague

What are your most common reasons for rejecting a manuscript without review?

As an Associate Editor handling mostly manuscripts from the broad field of molecular modelling in biochemistry, biology, and material chemistry; I tend to reject manuscripts that do not have present the clear validation of the computed data.

Typically, a modelling/docking study is presented, carried out with fairly standard computer software, that ends with reporting computed free energies of binding for a series of (computationally) tested compounds. It ends with the statement: “Our modelling/docking study showed a potential of the compound X and Y to be the great inhibitor of the enzyme Y (where Y is very often one of the SARS-CoV-2 enzymes these days)” Then, then paper typically contains a very descriptive paragraphs of all interactions, detailed discussion of the computed data, etc. However, in my eyes, without experimental validation of the computed data, the results are meaningless; given the inaccuracies of the force-field based protocols. I am not saying that I expect the authors to do the experiment, but to clearly and convincingly show on a known series of compounds tested on the same target with the known experimental binding constants that the used protocol works and the data thus can be trusted. The second typical examples of the manuscript that I reject are those that are out of scope. This is mostly in material chemistry and such manuscripts almost entirely lack chemistry: molecules, compounds, structures, and their transformations, which is in my eyes the definition of chemistry.

What would be your best piece of advice to a submitting author?

To read their paper with the critical eyes and ask yourself two questions: (1) Do I want to publish this manuscript, just to add one item onto my list of publications (requested, in some countries, by committees, grant agencies, etc.) or do I report a truly exciting science that I enjoy? (2) Does anybody else than myself and co-authors of the paper care about the results presented therein?

Tune in next week for our final blog with our academic Associate Editors! However, do not fear, we will be back with Bob Baker on how to improve your cover letter in a couple of weeks!

You are welcome to send in any questions you have about peer-review or publishing to advances-rsc@rsc.org or post them on Twitter @RSCAdvances #AdvancingWithAdvances.

Don’t miss out on our previous tips on how to publish and not perish below:

Advancing with Advances (Part 1): featuring Professor Robert Baker (Trinity College Dublin)

Advancing with Advances (Part 2): featuring editorial insights from staff editors at RSC Advances

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Advancing with Advances- How to Publish and not Perish (Part 6): Publishing Tips from Academic Editors

03 Sep 2022

By Dr Zita Zachariah, Assistant Editor.

How are papers assessed by academic editors at RSC Advances?

Insights from editors handling catalysis, nanoscience and sustainable synthesis papers

We are delighted to continue sharing with you publishing tips and tricks from our editors who have listed their:

a) Most common reason for desk-rejecting a paper

b) Top tip to authors

Meet the Editor:

Dr. Ranjit Koodali is the Associate Provost for Research & Graduate Education at Western Kentucky University. He handles papers in the areas of photocatalysis, solar energy and nanoscience.

Dr Ranjith Koodali, Western Kentucky University, USA

1. What is the most common reason for rejecting a manuscript without review?

RSC Advances disseminates new findings broadly in the area of Chemistry to the scientific community. With this broad scope and goal in mind to share exciting and new findings in Chemical Sciences, authors are encouraged to look at the scope and specifically the comprehensive list of subject categories to come to an informed decision if their work falls within this list. Also, it may be advisable to look at past issues and check if work that is planned to be submitted is covered in the scope. If the completed project falls within the scope of RSC Advances, then it may be best to provide a compelling narrative in the manuscript as to one or more of the following:
1. What gaps or ambiguities exist in the literature?
2. What new knowledge or scientific advance is being shared with the public?
3. How does the scientific community benefit from the work being published?
4. Are there some potential applied research benefits from the fundamental or basic research question being addressed?
5. Is prior literature cited and discussed in context of the current work?
6. Does the data support the hypothesis and conclusions?
The lack of specificities related to the questions above lead Associate Editors to question the quality, novelty, and scope of the submitted manuscript.

2. What is the best piece of advice you could give a submitting author?

A cover letter providing a compelling reason regarding the need to publish the submitted work and a manuscript that does not have typographical errors help Associate Editors come to an informed decision if a manuscript can be sent for reviews.

Meet the Editor:

Professor Luigi Vaccaro is based at the Department of Chemistry, Biology and Biotechnology at the University of Perugia and handles papers related to nanoanalysis, catalysis, stereochemistry and sustainable synthesis.

Professor Luigi Vaccaro, University of Perugia , Italy

1. What is the most common reason for rejecting a manuscript without review?

A manuscript must certainly contain sufficient elements of novelty that should be clearly and easily recognizable during the first quick read of the abstract.

Besides novelty, the lack of a solid experimental section and supporting material is also very important while a routine application of known protocols makes the contribution to be of limited interest.

2. What is the best piece of advice you could give a submitting author?

Clearly define the advance in terms of novelty or clearly identify the new information reported in the contribution. A scheme, a graphical description is often very helpful for the reader.

Authors, by preparing this simple scheme, will also have a decisive chance to evaluate their own work before the submission.

A contribution with a solid experimental section where all materials prepared are completely and efficiently characterized also bring an useful piece of information implementing the original idea and highlighting the need for an additional contribution.

These elements should be also presented in the cover letter in a simple and schematic style that will facilitate the reader who is generally trying to save time and get the most useful information in the most straightforward manner.

Meet the Editor:

Professor Thierry Ollevier, FRSC is a Full Professor in Chemistry at Université Laval, Québec (Canada) and handles papers in the areas of organocatalysis, bioorganic catalysis, and stereochemistry.

Professor Thierry Ollevier, Université Laval, Québec, Canada

1. What is the most common reason for rejecting a manuscript without review?

One of the most common reasons for rejecting a manuscript without review is an evident lack of advancement of science with respect to the state-of-the-art. This weakness is especially clear when the background literature and the context of the research are not presented in an appropriate manner.

2. What is the best piece of advice you could give a submitting author?

A submitting author should present a concise summary of the state-of-the-art and state well-defined, targeted, objectives. The manuscript should be structured to focus exclusively on the substantial advancement or new insight being reported. All arguments to highlight the advance should be placed in the context of the existing literature. The potential reader should readily get a clear understanding of the new elements brought by the manuscript.

We hope that you find these insights from Ranjith, Luigi, and Thierry useful while writing your next paper!

Tune in next week for yet more insights from our academic Associate Editors !

You are welcome to send in any questions you have about peer-review or publishing to advances-rsc@rsc.org or post them on Twitter @RSCAdvances #AdvancingWithAdvances.

Don’t miss out on our previous tips on how to publish and not perish below:

Advancing with Advances (Part 1): featuring Professor Robert Baker (Trinity College Dublin)

Advancing with Advances (Part 2): featuring editorial insights from staff editors at RSC Advances

Comments Off on Advancing with Advances- How to Publish and not Perish (Part 6): Publishing Tips from Academic Editors

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August 2022 RSC Advances Review Articles

August 2022 Popular Advances Articles

Advancing with Advances- How to Publish and not Perish (Part 8): More Publishing Tips from Academic Editors

RSC Advances Popular Advances – an interview with Ali Rauf

RSC Advances Emerging Investigators series 2021 – Author spotlight

Advancing with Advances- How to Publish and not Perish (Part 7): More Publishing Tips from Academic Editors

Advancing with Advances- How to Publish and not Perish (Part 6): Publishing Tips from Academic Editors

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