Emerging Investigators Series 2023 – Author Spotlight – Giordano Poneti

We are delighted to present the 2023 edition of the RSC Advances Emerging Investigators series! Following the success of our 2022 edition, we are excited to continue highlighting the chemistry research being conducted by some of the leading investigators in our community.

This year’s Series Editors were Professor Shirley Nakagaki (Federal University of Paraná, Brazil) and Dr Fabienne Dumoulin (Acıbadem Mehmet Ali Aydınlar Universit, Türkiye). Eight articles were selected to support emerging researchers who are already making strides in their respective fields of research, both nationally and internationally. In this series, researchers address issues around water pollution, and develop analytical tools for the detection of biologically relevant substances. We also showcase efforts to prepare and characterize new compounds, as well as computational and theoretical research. Read all about the contributions in this accompanying Editorial.

We would like to take this opportunity to highlight an author from the series, Giordano Poneti. 

Dr. Giordano Poneti got his PhD in Chemistry in 2010 at the University of Florence, Italy, under the supervision of Professors Roberta Sessoli and Andrea Dei, from the Laboratory of Molecular Magnetism. Since 2011, he shared his professional activity with the “Guglielmo Marconi” University in Rome, Italy, where he held a Temporary Research Fellow position. In 2016 he moved to the Institute of Chemistry of the Federal University of Rio de Janeiro, Brazil, where he served as an Assistant Professor and was appointed Young Scientist of the State of Rio de Janeiro in 2019 and Affiliate Member of the Brazilian Academy of Sciences in 2021. From 2022, Giordano is an Assistant Professor at the University of Tuscia, Viterbo, Italy. His research activity concerns the design, synthesis and structural, spectroscopic and magnetic analysis of bistable molecular systems, capable of reversibly changing their chemical-physical properties with an external stimulus, such as light or heat.

Valence tautomerism in a cobalt–dioxolene complex containing an imidazolic ancillary ligand

Anderson Moledo Vicente Guedes, Leandro Sodré de Abreu, Igor Antunes Vogel Maldonado, William Silva Fernandes,  Thiago Messias Cardozo, Rafael A. Allão Cassaro, Marciela Scarpellini and Giordano Poneti

RSC Adv., 2023,13, 20050-20057

RSC Advances Royal Society of Chemistry

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Themed collection: Nano and microscale modifications of biomaterials

RSC Advances is delighted to present this themed collection titled ‘Nano and microscale modifications of biomaterials’.

Obtaining a new or improved biomaterial, or a novel fabrication method, is a difficult task. As a rule, such materials must be created and possess specific properties. In general, bulk properties determine some mechanical and some physical properties. However, an interface between a biomaterial and a human environment, bones and tissue depends on biocompatibility, adhesion between an implant and a tissue, surface hardness, Young`s modulus, and most importantly, bioactivity and cytotoxicity. This collection aims to promote research in surface treatment at the nano and micro scale and to become familiar with different methods that lead to amelioration of surface properties followed by more long-term, less invasive, and more friendly implants made of metals and their alloys, ceramics, polymers, or composite materials.

This collection was Guest Edited by Professor Andrzej Zeliński and Professor Beata Majkowska-Marzec (Gdańsk University of Technology, Gdańsk, Poland). They provide an overview of the collection in this accompanying Editorial.

A selection of articles have been highlighted below, and you can view the full collection here.

Self-healing hydrogels for bone defect repair
Weiwei Li, Yanting Wu, Xu Zhang, Tingkui Wu, Kangkang Huang, Beiyu Wang and Jinfeng Liao
RSC Adv., 2023, 13, 16773-16788

Evaluation of adhesion strength, corrosion, and biological properties of the MWCNT/TiO2 coating intended for medical applications
Dorota Rogala-Wielgus, Beata Majkowska-Marzec, Andrzej Zieliński, Katarzyna Roszek and Malwina Liszewska
RSC Adv., 2023, 13, 30108-30117

Demonstration of doxorubicin’s cardiotoxicity and screening using a 3D bioprinted spheroidal droplet-based system
Raven El Khoury, Salma P. Ramirez, Carla D. Loyola and Binata Joddar
RSC Adv., 2023, 13, 8338-8351

View the full collection here

We welcome you to contribute to this collection. Please contact the Editorial Office to highlight your interest in submitting to this collection.

 

RSC Advances Royal Society of Chemistry

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RSC Advances Announces Concurrent Editing

Here at RSC Advances we aim to make the publishing experience as simple as possible for authors. We are therefore delighted to announce the introduction of concurrent editing!

Concurrent editing allows you and your co-authors to work on an accepted manuscript’s corrections at the same time; while corresponding authors can track, review and approve all changes.

The option to share access with your co-authors will be listed on the initial instructions panel and tracked on the workflow and editing panel as you work on your corrections together.

 

 

To use concurrent editing, the corresponding author will need to share the proof with any co-authors using the “Invite Collaborators” feature in Proof Central as shown below. This will give each invited author a unique link, allowing their changes to be tracked and all authors to work on corrections at the same time. The corresponding author can then review and approve all changes before submitting the final corrections. Full instructions can be found on Proof Central.

Alternatively, if you would prefer to supply proof corrections by annotating the PDF, this option will still be available and can also be done through Proof Central and an editor will apply the corrections on your behalf.

In addition to RSC Advances, concurrent editing will soon be a feature on all Royal Society of Chemistry journals, so watch out for this exciting tool with your next proof!

 

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Advance presented in RSC Advances article recognised by the World Health Organisation India

We are delighted to share that an RSC Advances article published by Dr. Ashish D. Patel and co-authors, titled “Nanotechnology as a cutting-edge solution to combat antimicrobial resistance” has been recognized by the World Health Organisation (WHO) India in  Antimicrobial Resistance Sameeksha review (Volume 31, November 2024)! This is an excellent accomplishment and we would like to congratulate all of the authors involved!

Dr. Ashish Patel is a researcher and academic with expertise in nanotechnology, particularly in the synthesis and application of nanoparticles for environmental and biomedical solutions. He has a strong background in material science, environmental engineering, and the use of nanomaterials for sustainable solutions. Dr. Patel currently serves as Associate Professor and Senior Researcher at Hemchandracharya North Gujarat University, where he leads a research group dedicated to exploring novel methods for biomedical application and environmental remediation using advanced nanomaterials. He has contributed to several high-impact publications in peer-reviewed journals and continues to collaborate with both academic and industry partners to apply his research in real-world settings. He also mentors Masters, Ph.D. and postdoctoral researchers, guiding them through projects related to nanomaterial synthesis and applications. With a commitment to advancing sustainable technologies and contributing to the scientific community, Dr. Patel remains dedicated to both his research and his role in academic and industry collaborations.

Dr Dhiraj Bhatia obtained his PhD from NCBS-TIFR in Bangalore, India, in DNA nanotechnology. Post PhD he went to the Curie Institute in Paris to join the team of Ludger Johannes initially as a Curie fellow and later as an HFSP long-term fellow where he developed cellular and biological applications of DNA nanodevices. In 2018, he moved to India to start his own laboratory at the Indian Institute of Technology Gandhinagar where he is an Associate Professor, and was Ramanujan fellow till 2023. His lab focusses on the translational aspects of DNA nanotechnology to develop tools to program biological systems for biomedical applications. He is currently a member of INYAS-INSA and also a scientific advisor for the startup company Q-Nano-Sol Biotech (QNANOSOL Pvt Ltd).

Dr. Dipak Kumar Sahoo works as a Research Scientist-III (Associate Graduate Faculty) at the Department of Veterinary Clinical Sciences, College of Veterinary Medicine, Iowa State University. He has an extensive research background of over 20 years with a doctoral degree (from Utkal University, India) and postdoctoral training (from Iowa State University, USA & University of Kentucky, USA) in animal biology, specific training and expertise in working with various disease models, cancer biology, molecular biology, biochemistry, genetics and ex vivo organoid studies, and has more than 100 research publications. He was also recognized as a “Top Peer Reviewer” in Biochemistry, Genetics, and Molecular Biology and received the “Sentinels of Science Award” in 2016. His current research focuses on developing molecular markers linked with colorectal cancer, inflammatory bowel diseases and sepsis, as well as the impact of antioxidants/oxidative stress in various pathophysiological conditions.

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

The review focuses on antimicrobial resistance (AMR) and how nanomaterials can offer new solutions to combat resistant infections. This is of current interest due to the growing inability of traditional antibiotics to treat resistant bacterial strains, creating an urgent need for alternative treatments.

What are the most significant challenges in combatting AMR?

The main challenges in tackling AMR include the rapid development of resistance by bacteria, the limited number of new antibiotics being introduced to the market, and the slow and often inaccurate diagnostics that make it difficult to identify resistant infections in time.

How do nanomaterials address these issues compared to traditional antibiotics?

Nanomaterials address these challenges by offering alternative mechanisms to fight infections. They can disrupt bacterial cell structures, bypass common resistance pathways, and deliver drugs more effectively to the infection site, unlike traditional antibiotics that often lose their effectiveness over time.

Can you briefly highlight some of the most promising nanomedicines and their mechanisms of action?

Some of the most promising nanomedicines include silver nanoparticles, which break down bacterial cell membranes, and magnetic nanoparticles, which can target infections more precisely using external magnetic fields. Carbon-based nanomaterials also show potential in disrupting bacterial communication and preventing biofilm formation.

Which type of nanomedicine are you most excited about?

The type of nanomedicine that excites me the most is silver nanoparticles because of their broad-spectrum effectiveness against a range of pathogens and their potential to reduce resistance development.

What do you believe is the next step in tackling AMR?

To tackle AMR, the next step is likely to involve combining nanomaterials with traditional antibiotics to enhance their effectiveness and prevent further resistance from developing.

Checkout “Nanotechnology as a cutting-edge solution to combat antimicrobial resistance” here.

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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November 2024 RSC Advances Review Articles

Welcome to November’s Review round up!

Every month we update our 2024 Reviews in RSC Advances collection to showcase all of the review articles published in RSC Advances in 2024. 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 November reviews below:

Revolutionizing applications: the impact of controlled surface chemistry on marble powder
Ali Zia Noor, Sadia Bibi, Maryam Asrar, Muhammad Imran, Sadia Afzal, Sadiqa Abdal and Muhammad Ati
RSC Adv., 2024, 14, 35727-35742

A timely update on g-C3N4-based photocatalysts towards the remediation of Cr(vi) in aqueous streams
Sambhu Prasad Pattnaik, Upali Aparajita Mohanty and Kulamani Parida
RSC Adv., 2024, 14, 36816-36834

Advancements in biohydrogen production – a comprehensive review of technologies, lifecycle analysis, and future scope
Aarnav Hetan Sanghvi, Amarjith Manjoo, Prachi Rajput, Navya Mahajan, Natarajan Rajamohan and Iyman Abrar
RSC Adv., 2024, 14, 36868-36885

Drug repurposing of fluoroquinolones as anticancer agents in 2023
Asmaa E. Kassab, Rania M. Gomaa and Ehab M. Gedawy
RSC Adv., 2024, 14, 37114-37130

A review on chloride induced corrosion in reinforced concrete structures: lab and in situ investigation
Mohsin Ali, Muhammad Alamgeer Shams, Naraindas Bheel, Abdulrazak H. Almaliki, Abubakar Sadiq Mahmoud, Yakubu Aminu Dodo and Omrane Benjeddou
RSC Adv., 2024, 14, 37252-37271

A review on the multifaceted effects of δ-MnO2 on heavy metals, organic matter, and other soil components
Haoran Hu, Xiang Li, Xinyu Gao, Lei Wang, Bo Li, Fandong Zhan, Yongmei He, Li Qin and Xinran Liang
RSC Adv., 2024, 14, 37752-37762

Analyses of mitochondrial metabolism in diseases: a review on 13C magnetic resonance tracers
Gaurav Sharma, Sergio Duarte, Qingyang Shen and Chalermchai Khemtong
RSC Adv., 2024, 14, 37871-37885

 

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 X. You can also keep informed by signing up to our E-Alerts.

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Popular Advances Interview with Barry A. Blight

We are very pleased to introduce Professor Barry A. Blight, corresponding author on a recently accepted paper, ‘Colour tuneability of heteroleptic iridium complexes through second-sphere coordination’, which was well received by reviewers and was handpicked to be part of our Popular Advances collection.

Professor Blight told us more about his research group and the work that went into this study and what he hopes to achieve in the future. Read more of our 2024 Popular Advances collection here!

 

Gabrielle Bourguignon, Dr Mason Lawrence, Robert Horne, Ariane Volpé, Dr Barry Blight, Sarah Englehart, Aroosha Faheem, T. Harri Jones

 

The groups work focuses on the development of luminescent MOFs, investigating the properties if existing MOF materials and employing  supramolecular techniques to explore organic optolectronic materials.

  1. 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?

Iridium compounds are commonly applied as materials in Organic Light Emitting Diodes (OLEDs) due to their tuneable light emitting properties. We were investigating the potential to change the light emission properties of the compounds through inter-molecular communication with a complementary binder molecule.

  1. How big an impact could your results potentially have?

This study shows the potential to use communication between complementary designed emissive compounds to influence each other’s light emitting properties. It’s an interesting effect worth further consideration and it may have applications in future OLED development.

  1. Could you explain the motivation behind this study?

Our group works on all kinds of functional materials for a variety of applications. We were looking for ways to access difficult colours for OLED materials which led us to studying these a variety of this type of iridium compounds.

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

The key experimental design consideration was how to prove that the interaction between our iridium compound and the complimentary binder (through a host-guest interaction) was contributing to the change in colour. We had to use a variety of analytical and computational approaches to verify our hypothesis.

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

The computational work was most challenging. Our group traditionally doesn’t undertake computational studies. This was a new frontier for the team and one that came with a fair few challenges to overcome.

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

Each of the light emitting compounds in this work offer a unique property, some show the capacity to share energy, some show the ability to access difficult colours. We’re excited about the variety of applications these new iridium compounds may be used for.

  1. What is the next step? What work is planned?

Testing their applications and developing new and improved versions of the compounds, which may show further enhanced light emitting properties. We are particularly interested in modulating the materials for efficient white-light generation.

Read the article here:

Colour tuneability of heteroleptic iridium complexes through second-sphere coordination

We wish the group all the best with their future projects!

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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October 2024 RSC Advances Review Articles

Welcome to October’s Review round up!

Every month we update our 2024 Reviews in RSC Advances collection to showcase all of the review articles published in RSC Advances in 2024. 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 October reviews below:

From green chemistry to biomedicine: the sustainable symphony of cobalt oxide nanoparticles
Annu, Muskan Sahu, Somesh Singh, Satypal Prajapati, Dinesh K. Verma and Dong Kil Shin
RSC Adv., 2024, 14, 32733-32758

Research progress of Mn-based low-temperature SCR denitrification catalysts
Jiadong Zhang, Zengyi Ma, Ang Cao, Jianhua Yan, Yuelan Wang, Miao Yu, Linlin Hu and Shaojing Pan
RSC Adv., 2024, 14, 32583-32601

The synergistic effect of adsorption and Fenton oxidation for organic pollutants in water remediation: an overview
Junzhe Song, Linan Zhu, Sheng Yu, Guobiao Li and Dong Wang
RSC Adv., 2024, 14, 33489-33511

Production, characterization and environmental remediation application of emerging phosphorus-rich biochar/hydrochar: a comprehensive review
Qilong Ge, ChunJuan Dong, GuoYing Wang, Jing Zhang and Rui Hou
RSC Adv., 2024, 14, 33649-33665

A comprehensive review on self-cleaning glass surfaces: durability, mechanisms, and functional applications
Suqi Xue, Shanglei Yang, Xiner Li, Qiubo Li and Bangguo Hu
RSC Adv., 2024, 14, 34390-34414

Insulating materials based on silica aerogel composites: synthesis, properties and application
K. I. Goryunova and Y. N. Gahramanli
RSC Adv., 2024, 14, 34690-34707

 

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 X. You can also keep informed by signing up to our E-Alerts.

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RSC Advances Announces Co-Review

RSC Advances is delighted to announce that it has launched co-review.

RSC Advances aims to support authors, researchers and reviewers at all stages of their career. The team behind RSC Advances always endeavours to promote innovative ideas that enable opportunities for all.

We are therefore excited to announce the option for co-review at RSC Advances. The co-review process allows two individuals to collaborate on the peer review of a manuscript and both reviewers eligible for recognition through the Web of Science Reviewer Recognition Service.

The launch of co-review aims to provide a way for early career researchers who assist their supervisor reviewing a manuscript the chance for recognition and to receive credit for their contribution.

Co-review enables early-career researchers to develop their skills in peer review through collaboration with an experienced colleague and to demonstrate experience that may further their career. Please note that co-reviewers must meet the RSC’s peer reviewer eligibility criteria to review for RSC Advances. More information can be found at our Author and Reviewer Hub.

Here are what our Co-Editors in Chief had to say:

“We are really excited to launch this new initiative and to give early-career researchers the opportunity to take part in, and importantly, get recognition for their contribution to peer review. RSC Advances strives to ensure excellent peer review for all our authors and this new initiative, alongside transparent peer review, gives a strong opportunity to train and support the next generation of reviewers” – Karen Faulds, Editor-in-Chief, RSC Advances.

“The RSC Advances Reviewer Panel is at the heart of our journal. We now want to propagate that reviewing experience to the next generation of scientists, and co-review will be a great way to do this. Innovations in ScholarOne will allow experienced reviewers to pass on their expertise to more junior colleagues, and for both to get credit for the work” – Russell J. Cox, Editor-in-Chief, RSC Advances.

To support our early career researchers and those who are just starting to write reviewer reports we ran a blog series earlier this year titled ‘Perfecting Peer Review’ which provides insights from our Associate Editors in review writing. We encourage all reviewers, from the very experienced to the brand new to check out that series here!  We hope everyone will be able to find some useful tips and tricks on review writing.

To find out more about co-review, please read our Editorial here.

We wish all our reviewers the best, and we look forward to receiving your next reviewer report!

 

 

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Meet Oisín N. Kavanagh: New Principal Investigator

We are delighted to introduce the first contribution to our New Principal Investigators collection.

Read the paper

Cystine crystal nucleation and decay in the context of cystinuria pathogenesis and treatment

Kimberley Noble and Oisín N. Kavanagh

Meet the Principal Investigator

Oisín N. Kavanagh is a pharmacist and Senior Lecturer in Pharmaceutics at the School of Pharmacy, Newcastle University and Senior Fellow of the Higher Education Academy. He received the Gold Medal from the Pharmaceutical Society of Northern Ireland in 2017 and completed his clinical training in his hometown of Derry before moving to the University of Limerick to undertake his PhD. He was awarded a Fulbright scholarship to the School of Pharmacy, University of Michigan and was subsequently appointed to a Lectureship at Newcastle University in 2021. His research interests are centred around the relationship between drug physical properties and their pharmacokinetics. He is PI for multiple research streams funded by government and charitable organisations. This includes an EPSRC-funded project (EP/Y014596/1) investigating drug-induced crystalluria and a project funded by Action Medical Research/LifeArc focused on engineering new drug formulations for cystinosis, a rare disease.

Check out the video below where Oisín summarises his recent paper:

You’ve recently started your own group, what are the big research question/s your group will be focussing on?

The central vision for my team is to develop fundamental understanding to describe the relationships between drug supersaturation and pharmacokinetics. This has brought us to work on two applications (1) crystal engineering to modulate the pharmacokinetics of absorption and (2) contextualising supersaturation processes in the kidney with pharmacokinetics to predict drug induced crystalluria.

What inspired you to get into science?

If I cast my mind back, I can’t remember ever wanting to be anything other than a scientist. I suppose the path forward became a little clearer during my time at university, where I studied Pharmacy. There, I developed a solid foundation in pharmaceutical sciences and worked every summer in the research labs of Professor John Callan. This experience was formative for me.

What advice would you give to those who are seeking their first group leader position?

This is a difficult path and there are moments when things look bleak… in those times, try to remember why you’re doing this – and then get at it!

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ATAS – AnXAS 2024 Workshop Poster Prize Winners

The second ATAS – AnXAS workshop was held in Karlsruhe, Germany between the 17th-21st of October 2024. RSC Advances was delighted to award poster prizes to three outstanding researchers in the field.

The awardees of ATAS – AnXAS 2024, the 2nd Joint Workshop were as follows:

Best posters (voted for by all participants of the poster session):

Emily Reynolds

“Development and Application of a Microfluidic Set-Up for In-Situ Studies of Formation Kinetics of La- and U-Complexes Using High Resolution Spectroscopic Methods”

Karlsruhe Institute of Technology, Germany

Nathan M. Alcock

“Determination of actinide central-field covalency with 𝟑𝒅𝟒𝒇 resonant inelastic X-ray scattering (RIXS)”

University of Manchester, Manchester

Best young scientist oral presentation award (voted for by the scientific advisory board):

Janik Lohmann

“Investigation of gluconate complexation with trivalent Eu, Pu and Am using CE-ICP-MS”

Johannes Gutenberg-Universität Mainz, Germany

Congratulations to our winners!

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