Archive for the ‘Nanoscale’ Category

RSC Nanoscale Journal Activities at ChinaNANO 2025

A cake cutting ceremony to celebrate the 10th anniversary of Nanoscale Horizons with Professor Chunli Bai (founding Editor-in-Chief) as well as esteemed editors, colleagues, and friends

The RSC Nanoscale journal family aims to provide a home for research across the breadth of nanoscience and nanotechnology, incorporating work that advances the field and also contributes exceptional step-change developments. As part of our ongoing efforts to support the community and facilitate dialogue on emerging technologies, during ChinaNANO 2025 we organised a “Deep Dive Discussion” bringing together over 100 leading scientists alongside a panel of field leaders (many of whom are editors for the journal family) to engage in open and dynamic discourse about what they felt would be the next big thing in nanoscience and what role the journals should play in this future.

 

 

Looking back

Nanoscience, as with other fields, has naturally evolved in the last two decades from materials discovery to analysis and ultimately to application. As a relatively young discipline, it has seen a phase of rapid growth over the last decade. The expectation is that this growth will level off but the field will continue to be active and important across many aspects of industry and research.

The evolution of the RSC Nanoscale journals has followed the wider market trends, beginning with the launch of Nanoscale in 2009. As the journal (and the field) developed we quickly became one of the key resources/homes for high quality nanoscience research publications. Over time, the market has grown with the launch of many journals covering both fundamental and applied aspects of nanoscience, but Nanoscale remains a central resource for the community. The launch of Nanoscale Horizons in 2015 and Nanoscale Advances in 2018 highlights the commitment of the RSC to provide coverage across the breadth of nanoscience research publications, in terms of impact, conceptual novelty, and accessibility.

The early publications in nanoscience (and in Nanoscale at the RSC) centred around fundamental synthesis and characterization methodology. The discovery of exciting new materials such as carbon nanotubes and later graphene led to exponential increases in the number of research papers investigating the synthesis, properties, and potential applications of these new technologies. Over time the understanding of these materials grew, leading ultimately to the application of carbon nanotubes in commercial technologies to enhance material properties in sports equipment, vehicles, etc. A new generation of materials are now emerging: MXenes. Article numbers on MXene research show the same year-on-year growth now as those on graphene did ten years ago. The other area exhibiting high growth in publications each year is Artificial Intelligence (AI) and its application to nanoscience technologies.

From miniaturisation to intelligent design

Here at the RSC Nanoscale journal family, we are committed to supporting the evolving landscape of nanoscience through inclusive, high-quality, interdisciplinary publishing. The recent Deep Dive Discussion at ChinaNANO 2025 provided a valuable opportunity to engage with leading researchers on the transformative role of Artificial Intelligence (AI) in nanoscience and the future direction of the field. AI is rapidly reshaping scientific inquiry, and its integration into nanoscience follows the long emerging trend shifting focus away from making things smaller towards making things smarter. Our panellists highlighted AI’s potential to accelerate complex modelling tasks such as how to model protein folding or interactions at biointerfaces, as well as applications in drug design, target screening, clinical translation, optimization, and cost reduction.

However, challenges lie ahead. Our panellists agreed that reliable, high-quality data remains a significant bottleneck for effective AI training, especially in complex biological systems. There was strong consensus on the need for domain-specific AI models tailored to nanoscience, rather than relying solely on general-purpose tools. As with any conceptually new technology, there is significant hype around how AI will transform every field in which it is applied. Transformative ideas in science often come from unexpected places, and there is ongoing debate about whether statistics-driven AI can ever be expected to capture truly novel discoveries. These philosophical limits of AI in scientific discovery should be considered in every application of the tool. It is known that AI excels at pattern recognition and automation, but by using existing data based on known laws it can only review the past. Novel insights require intuitive leaps and these remain a hallmark of human creativity in science. Ultimately the best applications of AI will automate lengthy but trivial tasks, freeing up human time and capabilities to be focussed on new approaches and conceptual advances. AI will act as a catalyst, blurring disciplinary boundaries and fostering synergistic development within nanoscience and other fields.

Following these discussions and the recommendations of our panellists, the Nanoscale family will aim to increase it’s coverage of AI-related content through a number of avenues. Firstly, the panellists are invited to contribute a series of Perspective articles on how AI may impact their particular research fields in the future. Additionally we plan to announce a special issue on the topic in 2026

Looking ahead

Professor Yue Zhang (Editor-in-Chief of Nanoscale and Nanoscale Advances) shared his perspectives and plans for the future of the journal family

We anticipate that there will be other vital aspects to the future development of nanoscience beyond the integration of AI tools. The development of nanoscience and nanotechnology is a dual-engine process, driven by both fundamental discoveries and technological applications. The core of the nanoscience field lies in studying structure–function relationships at the nanoscale, involving new structures, materials, and effects. Advances in the understanding of structure–function relationships rely heavily on the continual development of nanoscale characterization techniques. The foundational role played by microscopy and, more recently, large-scale facilities (X-ray, synchrotrons, attosecond lasers etc.) cannot be underplayed. These technological advancements in measurement will push new understandings of nanoscale properties, bringing further development both for AI modelling, but also across other applications. Additionally, the ability to achieve large-scale production of high-quality, uniform nanomaterials for applications is a fundamental requirement for industry to consider adopting nanomaterials in their processes and products. The importance of this aspect of nanoscience is demonstrated by the 2023 Nobel Prize in Chemistry which rewarded the development of controllable synthesis of quantum dots. The ability to make quantum dots of well-defined and uniform size in a fully reproducible way has allowed industry to develop game-changing LEDs (and later OLEDs), which are now ubiquitous in colour displays and TV screens. The Nanoscale family has continued to feature fundamental synthesis and structure-function investigations in its publications over the past 10 years, in keeping with the essential nature of this work to the nanoscience field. Topical collections lead by leaders in the field have covered magnetic nanoparticles, nanoarchitectonics, chiral nanomaterials and characterisation techniques such as SERS. Looking ahead we will continue to prioritise high quality fundamental research in the journals, alongside the exciting application-focussed advancements that feature strongly in the publishing landscape today.

 

Acknowledgements

From left to right: Professor Xiaohui Qiu, Professor Chunying Chen, Professor Qingliang Liao, Professor Baoquan Ding, Professor Shiwei Wu, Professor Renzhi Ma, Professor Qing Dai, and Professor Quan Li

Special thanks are given to Professor Zhiyong Tang (Advisory Board of Nanoscale Horizons) for his assistance with the organisation of the discussion, Professor Xiaohui Qiu (Scientific Editor of Nanoscale Horizons) who chaired the panel, as well as the panellists who provided their viewpoints that form this basis of this article: Professor Chunying Chen (NCNST), Professor Qingliang Liao (University of Science and Technology Beijing), Professor Shiwei Wu (Fudan University), Professor Baoquan Ding (NCNST), Professor Renzhi Ma (NIMS), Professor Qing Dai (NCNST), Professor Quan Li (The Chinese University of Hong Kong), and Professor Jin Zhang (Peking University).

 

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Open call for papers: Frontiers in Plasmonic Science and Applications

Frontiers in Plasmonic Science and Applications

Submit your work to the collection before 16 February 2026

Nanoscale is delighted to announce on open call for our upcoming special themed collection Frontiers in Plasmonic Science and Applications!

This themed collection is being guest edited by Vipul Bansal (The Royal Melbourne Institute of Technology, Australia), Hiang Kwee Lee (Nanyang Technological University, Singapore), Theobald Lohmueller (Ludwig Maximilian University of Munich, Germany), and Murali Sastry (Monash University, Australia).

 

Plasmonics has been an active field of research for several decades now, but continues to evolve rapidly, both conceptually and technologically. This progress is reflected in a wide range of applications and in ongoing innovation across fields, including enhanced spectroscopy, subwavelength optics, biomedical sensing, energy harvesting, and plasmon-enhanced catalysis. In parallel, new directions such as quantum plasmonics, ultrafast and nonlinear plasmonic phenomena, and plasmonic metasurfaces are pushing the boundaries of nanoscale light–matter interactions. As plasmonic materials and architectures become increasingly sophisticated, the field continues to expand its impact on both fundamental science and practical technologies

This special issue aims to capture the latest advances in the multidisciplinary field of plasmonics, encompassing both foundational research and emerging applications. We invite contributions that explore the broad scientific and technological implications of plasmonic phenomena across diverse domains. . The issue will focus on, but is not limited to, the following key areas:

  1. Novel synthesis and fabrication methods for plasmonic and hybrid plasmonic-based nanostructures
  2. Plasmonic effects in emerging materials
  3. Fundamental processes in plasmonic materials
  4. Advances in instrumental techniques for probing plasmons at the subparticle level
  5. Theoretical modeling and simulation of plasmonic systems
  6. Application of plasmonic materials in catalysis
  7. Plasmonic materials in sensing, diagnostics and imaging

We hope that readers find this themed collection informative and useful. Submissions to the journal should fit within the scope of Nanoscale.  Please see the journal’s website for more information on the journal’s scope, standards, article types and author guidelines.

Open for submissions until 16 Feb 2026

The Editorial Office reserves the right to check suitability of submissions in relation to the scope of both the journal and the collection, and as such inclusion of accepted articles in the final themed collection is not guaranteed.


How to submit

If you would like to contribute to this themed collection

  1. Log into either the Nanoscale online submission system.
  2. Submit your article
  3. Select your article type and under the “Themed issues” section in the submission form mention that it is an Open Call contribution to the Frontiers in Plasmonic Science and Applications collection
  4. Add a “Note to the Editor” that this is from the Open Call

The Editorial Office reserves the right to check suitability of submissions in relation to the scope of both the journal and the collection, and inclusion of accepted articles in the final themed issue is not guaranteed.

Please note that all submissions will be subject to initial assessment and rigorous peer review to meet the usual high standards of Nanoscale. All articles featured in the collection must be in scope and as such final inclusion is not guaranteed and will be up to the discretion of the guest editors.

We look forward to receiving your latest work and considering it for this collection. Please do get in touch at nanoscale-rsc@rsc.org if you have any questions at all.

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Open call: Advanced Nanomaterials for Sustainable Green Hydrogen Production

Advanced Nanomaterials for Sustainable Green Hydrogen Production

Submit your work to the collection before 22nd January 2026

Nanoscale and Journal of Materials Chemistry A are delighted to announce on open call for our upcoming special themed collection Advanced Nanomaterials for Sustainable Green Hydrogen Production

This themed collection is being guest edited by Veronica Sofianos (University College Dublin, Ireland) , Serena Cussen (University College Dublin, Ireland), Vasileios Tzitzios (NCSR ‘Demokritos’, Greece), Paul Westerhoff (Arizona State University, USA), and Helena Wang (The University of Melbourne, Australia)

As the world transitions to a sustainable energy future, green hydrogen stands out as a clean, carbon-free energy carrier. However, traditional green hydrogen production relies heavily on freshwater, a limited and increasingly precious resource. Conventional water splitting competes with agriculture and human consumption for freshwater resources.

Shifting to non-traditional water sources like seawater and wastewater can alleviate this competition, ensuring that green hydrogen production does not compromise essential water needs. This has spurred growing interest in using seawater and wastewater as alternative feedstocks. Their utilization not only conserves freshwater but also offers additional environmental and economic benefits, making them critical to the scalable and sustainable production of green hydrogen.

This themed collection in Nanoscale and Journal of Materials Chemistry A, will discuss:

  • seawater and wastewater splitting by employing selective photocatalysts
  • electrocatalysts or (photo)electrocatalysts
  • principles of assessing catalysts in such complex environments
  • advancements in-situ and operando characterisation techniques either using synchrotron facilities or lab scale equipment
  • strategies for designing new reactor designs
  • upscaling synthesis strategies
  • catalysts assessment in commercial environments

We hope that readers find this themed collection informative and useful. Submissions to the journal should fit within the scope of Nanoscale and Journal of Materials Chemistry A. Please see the journal’s website for more information on the journal’s scope, standards, article types and author guidelines.

Open for submissions until 22nd January 2026

The Editorial Office reserves the right to check suitability of submissions in relation to the scope of both the journal and the collection, and as such inclusion of accepted articles in the final themed collection is not guaranteed.


How to submit

If you would like to contribute to this themed collection

  1. Log into either the Nanoscale or Journal of Materials Chemistry A online submission system.
  2. Submit your article
  3. Select your article type and under the “Themed issues” section in the submission form mention that it is an Open Call contribution to the Advanced Nanomaterials for Sustainable Green Hydrogen Production collection
  4. Add a “Note to the Editor” that this is from the Open Call

The Editorial Office reserves the right to check suitability of submissions in relation to the scope of both the journal and the collection, and inclusion of accepted articles in the final themed issue is not guaranteed.

Please note that all submissions will be subject to initial assessment and rigorous peer review to meet the usual high standards of Nanoscale and Journal of Materials Chemistry A. All articles featured in the collection must be in scope and as such final inclusion is not guaranteed and will be up to the discretion of the guest editors.

We look forward to receiving your latest work and considering it for this collection. Please do get in touch at nanoscale-rsc@rsc.org if you have any questions at all.

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Congratulations to the award winners at the European Materials Research Society (E-MRS) in Strasbourg, France!

Congratulations to the award winners at the European Materials Research Society (E-MRS) in Strasbourg, France!

The 2025 Spring Meeting of the European Materials Research Society (E-MRS) organized with the Foundation Jean-Marie Lehn was held at the Convention & Exhibition Centre of Strasbourg (France), from May 26 to 30, 2025.

The conference consisted of 23 parallel symposia with invited speakers, oral and poster presentations assorted by a plenary session to provide an international forum for discussing recent advances in the field of materials science.

The focus of the scientific program was on fundamental investigations and technological applications, providing an international forum for discussing recent advances related to the different aspects to be considered to promote innovation.

The Nanoscale family is proud to sponsor the below prizes:

Min Cheol Cheon (Pusan National University)
Best Poster Prize

Min Cheol Cheon is a second-year Ph.D student in the Department of Materials Science and Engineering at Pusan National University. He is a member of the Functional & Intelligent Nanomaterials based Devices Lab, supervised by Prof. Seoung-Ki Lee. This research was conducted with the assistance of HeeYoon Jang, a master’s student from the same lab, and Dr. SuKang Bae’s group at the Korea Institute of Science and Technology (KIST). The study focuses on applying mechanical strain to two-dimensional materials via laser processing and evaluating its impact on ReRAM device performance. His broader research interests include laser-based material processing, particularly the synthesis of 2D materials and the recrystallization of wide bandgap semiconductors. His research aims to advance laser processing from material modification to device integration by developing selective fabrication techniques.

 

Jong-Hyun Jang (Sungkyunkwan University)
Best Poster Prize

Jong-Hyun Jang is a second year integrated Master’s–PhD student at Sungkyunkwan University, South Korea. He conducts his research in the Information Materials and Device Lab (IMDL) under the supervision of Prof. Han-Ki Kim in the Department of Advanced Materials Science and Engineering. His research focuses on synthesizing 2D MoS₂ by sulfurization of atomically thin Mo films and developing damage-free Mo electrode deposition techniques. Both methods utilize the Isolated Plasma Soft Deposition (IPSD) system, a proprietary technology developed by IMDL. His goal is to develop core technologies essential for the future commercialization of 2D semiconductors by sputtering. Prior to entering the integrated course, he received his bachelor’s degree in Physics from Kangwon National University.

 

 

 

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Open calls for papers – Thermoelectric energy conversion

Thermoelectric energy conversion

Submit your work to the collection before 19 November 2025

Nanoscale and Journal of Materials Chemistry A are delighted to announce on open call for our upcoming special themed collection Thermoelectric energy conversion.

This themed collection is being guest edited by Prof. In Chung (Seoul National University, South Korea), Dr. Emmanuel Guilmeau (CRISMAT, CNRS, France), Dr. Koushik Pal (IIT Kanpur, India), Dr. Subhajit Roychowdhury (IISER Bhopal, India), Dr. Ady Suwardi (The Chinese University of Hong Kong, Hong Kong), Prof. Li-Dong Zhao (Beihang University, China)

A photo of the guest editors from left Subhajit Roychowdhury, Li-Dong Zhao , Koushik Pal, Ady Suwardi, Emmanuel Guilmeau and In Chung

The growing global demand for clean, efficient, and sustainable energy solutions has positioned thermoelectric energy conversion at the forefront of advanced energy research. Thermoelectric materials, capable of directly and reversibly converting heat into electricity without any moving parts, offer a promising pathway for applications in both power generation and cooling technologies.

This themed collection aims to highlight recent advancements in the development and application of high-performance thermoelectric materials. Contributions will explore a broad spectrum of research, including the synthesis of novel compounds, the correlation between chemical bonding and structural features, structure-property relationships, and strategies for enhancing material efficiency.

The scope extends to both fundamental scientific studies and applied technological innovations, including but not limited to:

  • Theoretical and computational modelling of thermoelectric materials and properties
  • Design and synthesis of novel thermoelectric materials (e.g., chalcogenides, oxides, skutterudites, and organic thermoelectrics)
  • Nanostructuring and interface engineering for enhanced thermoelectric performance
  • High-throughput screening and ML/AI approaches for thermoelectric material design, discovery and property prediction
  • Advanced characterization techniques for probing thermoelectric properties
  • Optimization of transport properties (e.g., Seebeck coefficient, electrical conductivity, thermal conductivity)
  • Phonon engineered high-performance thermoelectrics
  • Development of thermoelectric devices and modules for power generation and cooling
  • Flexible and wearable thermoelectric systems
  • Applications in waste heat recovery, renewable energy, and thermal management
  • Sustainability and scalability of thermoelectric materials and technologies

By addressing the multifaceted challenges and opportunities in this rapidly evolving field, this collection seeks to provide a comprehensive platform for fostering innovation and guiding the next generation of thermoelectric technologies.

Open for submissions until 19 November 2025

The Editorial Office reserves the right to check suitability of submissions in relation to the scope of both the journal and the collection, and as such inclusion of accepted articles in the final themed collection is not guaranteed.


How to submit

If you would like to contribute to this themed collection

  1. Log into either the Nanoscale or Journal of Materials A online submission system.
  2. Submit your article
  3. Select your article type and under the “Themed issues” section in the submission form mention that it is an Open Call contribution to the Thermoelectric energy conversion collection
  4. Add a “Note to the Editor” that this is from the Open Call

The Editorial Office reserves the right to check suitability of submissions in relation to the scope of both the journal and the collection, and inclusion of accepted articles in the final themed issue is not guaranteed. Please note that all submissions will be subject to initial assessment and rigorous peer review to meet the usual high standards of Nanoscale and Journal of Materials Chemistry A. All articles featured in the collection must be in scope and as such final inclusion is not guaranteed and will be up to the discretion of the guest editors.

We look forward to receiving your latest work and considering it for this collection. Please do get in touch at materials-rsc@rsc.org if you have any questions at all.

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Open Call for Papers- Magnetic Nanoparticles: From Massart Method to a Cascade of Innovations 

Open Call for Papers- Magnetic Nanoparticles: From Massart Method to a Cascade of Innovations 

Submissions deadline extended to the 16th January 2026! 

Nanoscale and Nanoscale Advances are delighted to announce on open call for our upcoming special themed collection Magnetic Nanoparticles: From Massart Method to a Cascade of Innovations, to be promoted in Winter 2025.

This themed collection is being guest edited by Professors Ali Abou-Hassan (Sorbonne University, France), Anna Cristina S. Samia (Case Western Reserve University, United States), Lise-Marie Lacroix (Toulouse University, France), Nguyễn T. K. Thanh (University College London, United Kingdom), Olivier Sandre (University of Bordeaux, France) and Teresa Pellegrino (Italian Institute of Technology, Italy).

Magnetic Nanoparticles Promootional slide promoting the deadline of the 16th January 2026

Magnetic nanoparticles are a class of materials that exhibit unique superparamagnetic properties due to their nanoscale size and high surface-to-volume ratio. The synthesis of magnetic nanoparticles is central to their widespread use, with several methods developed over the years to produce them in a controlled, reproducible manner.

One of the most well-known and widely adopted methods is the alkaline co-precipitation method developed by Prof. René Massart in the early 1980s. Originally conducted in water (though it can be adapted to a dispersed state in less polar media), it is a widely used, cost-effective technique for synthesizing magnetic nanoparticles, especially iron oxide (magnetite and maghemite), as well as other spinel-structured metal oxides (e.g., cobalt, manganese, and zinc ferrites). Known for its simplicity, up-scalability, and ability to relatively control particle size and magnetic properties, the Massart process is extensively employed for producing nanomaterials for in biomedical, environmental, and industrial applications due to its efficiency and versatility in producing large quantities of tailored nanoparticles.

This themed collection aims to provide a comprehensive overview of the advances in the field of magnetic nanoparticle research, by covering its different facets ranging from rational design of synthesis processes to improved properties dispersion states, and end applications.

In tribute to René Massart, this collection will cover various aspects of magnetic nanoparticles, including:

  • Synthesis and design of magnetic nanoparticles
  • Characterization of magnetic nanoparticle structure, dynamics, and properties
  • Surface functionalization and dispersion state of magnetic nanoparticles
  • New methodologies of magnetic nanoparticles synthesis in the bulk
  • Flow chemistry synthesis of magnetic nanoparticles
  • Study of nucleation and growth of magnetic nanoparticles
  • Multifunctional magnetic based nanoparticles, including (bio)organic nano-assemblies and nano(bio)hybrids
  • Structure-properties relationships of magnetic nanoparticles and magnetic based nano(bio)hybrids
  • Biomedical applications of magnetic nanoparticles (targeted drug delivery, magnetic resonance imaging (MRI), magnetic particle imaging (MPI), hyperthermia treatment, tissue engineering/biofabrication and in vitro or in vivo biodegradation studies
  • Environmental applications (water treatment and micropollutant detection or removal)
  • Industrial or energy-related applications (magnetic storage media, seals, valves, construction materials, and magnetically boosted catalysis, e.g., for clean hydrogen production)

This call for papers is open for the following article types:

  • Communications
  • Full papers
  • Reviews

Open for submissions until 16th January 2026


How to submit


If you would like to contribute to this themed collection, you can submit your article directly through the Nanoscale  or Nanoscale Advances online submission system. Please mention that this submission is an open call contribution to Magnetic Nanoparticles collection in the “Themed issues” section of the submission form and add a “Note to the Editor” that this is from the Open Call.

Please note that all submissions will be subject to initial assessment and rigorous peer review, if appropriate, to meet the usual high standards of Nanoscale or Nanoscale Advances. In some cases, the Associate Editors may offer authors a transfer to Nanoscale Advances from Nanoscale if more appropriate.

If accepted, your article will be added to a usual issue of the journal where you will receive your page numbers and added to our online collection for extra visibility. The collection will be promoted in Winter 2026.

If you have any questions about the journal or the collection, then please contact the editorial office and they will be happy to answer them.

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Open Call for Papers – The Changing Canvas of Nano

Open Call for Papers – The Changing Canvas of Nano

Submissions deadline 17 August 2025 

Nanoscale is delighted to announce an open call for our upcoming special themed collection on the “The Changing Canvas of Nano”, which aligns with the AsiaNano 2024 meeting, celebrating nanoscience and nanotechnology in Asia across a broad range of topics. This collection is guest edited by Prof Thalappil Pradeep (Indian Institute of Technology Madras, India) and Prof Haiwon Lee (Jeonju University, Republic of Korea), Donghwan Kim (Sungkyunkwan University, Republic of Korea), and Kaoru Tamada (Kyushu University, Japan).

Promotional graphic for Asia Nano conference 2024 open call

In the AsiaNano 2024 workshop, groundbreaking innovations in nanochemistry, nanomaterials, and nanotechnology were presented, with a special focus on the capturing the excellence of nano research from Asia. The evolution of the AsiaNANO conferences mirrors the changing canvas of nanotechnology itself, showcasing groundbreaking innovations in nanochemistry, nanomaterials, and nanotechnology. These meetings are crucial for developing a cohesive Asian network on nanoscience and nanotechnology, promoting not only scientific advancement but also a cooperative response to global challenges.

In this open call we invite all contributors to AsiaNano2024 as well as those involved in the nanoscience network across Asia to submit their work to Nanoscale.

This collection will covers a broad range of topics including:

  • Nanomaterials
  • Nanophotonics
  • Sustainable nanotechnology
  • Sensors/ Lab-on-chip and microfluidics
  • Advanced tools and applications
  • Nano-biology and nanomedicine

This call for papers is open for the following article types:

  • Communications
  • Full papers
  • Reviews

Open for submissions until 17 August 2025

 


How to submit


If you would like to contribute to this themed collection, you can submit your article directly through the Nanoscale online submission system. Please mention that this submission is an open call contribution to The Changing Canvas of Nano collection in the “Themed issues” section of the submission form and add a “Note to the Editor” that this is from the Open Call. The Editorial Office reserves the right to check suitability of submissions in relation to the scope of both the journal and the collection, and inclusion of accepted articles in the final themed issue is not guaranteed.

Please also note that all submissions will undergo the normal peer review processes including an initial assessment prior to peer review, and that peer review and acceptance are not guaranteed.

If you have any questions about the journal or the collection, then please contact the editorial office and they will be happy to answer them.

 

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Welcoming Professor Baoquan Ding to Nanoscale and Nanoscale Advances as an Associated Editor

We are delighted to welcome Professor Baoquan Ding, National Center for Nanoscience and Technology, China, as a new Associate Editor working across Nanoscale and Nanoscale Advances.

Welcoming Baoquan Ding, National Center for Nanoscience and Technology, China, as a new Associate Editor working across Nanoscale and Nanoscale Advances.

Professor Ding obtained his B.S. in Chemistry from Jilin University in 2000. He received his Ph.D. degree in Chemistry from New York University in 2006. After a postdoctoral experience at Molecular Foundry, Lawrence Berkeley National Lab (2006-2009), he joined the Biodesign Institute, Arizona State University, as a research assistant professor (2009-2010). He became a full professor at NCNST in November 2010.

His research interests include nanostructure and nanodevice fabrication with self-assembled biomolecules and nanoparticles and the development of wide applications in drug delivery, biocatalysis, and nanophotonics

I look forward to strengthening the communication and collaboration between RSC and NCNST and contributing to promote Nanoscale to be one of the best Journals in nanoscience and nanotechnology.” – Professor Baoquan Ding

We welcome you to submit your latest work on nanostructure and nanodevice fabrication with self-assembled biomolecules and nanoparticles with applications in drug delivery, biocatalysis, and nanophotonics to his editorial office for consideration:

 

Submit your research to Nanoscale

Submit your research to Nanoscale Advances

 

Please join us in welcoming Professor Ding to Nanoscale and Nanoscale Advances and we hope you will consider Nanoscale and Nanoscale Advances for your future submissions!

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Open Call for Papers – Reactivity and Self-Assembly in Confined Spaces

Open Call for Papers – Reactivity and Self-Assembly in Confined Spaces

Guest Edited by Xavier Ribas Salamaña, Huan Pang, F. Dean Toste & Raul Hernandez Sanchez.

Nanoscale and Chem Comm are pleased to announce an open call for papers to an upcoming special collection on Reactivity and Self-Assembly in Confined Spaces. This collection is guest edited by Xavier Ribas Salamaña (IQCC, Spain), Huan Pang (Yangzhou University, China), F. Dean Toste (University of California Berkeley, USA) and Raul Hernandez Sanchez (Rice University, USA).

Open call promotional graphic

Reactions at confined sites generally exhibit high rates and exquisite selectivities that differ from those occurring in bulk solution. The confinement spot can be considered as a second coordination sphere of the catalyst, reminiscent of enzymatic active sites.  The orientation of the reagents and substrates is controlled by the special environment around the confined site leading to highly selective transformations. As such, structural constraints and weak interactions conspire to decrease activation barriers of precise reactions to furnish rapid chemo-, regio-, and stereoselective transformations. Therefore, shedding light on reactions taking place at confined spaces is crucial to tame their reactivity and add another level of control to catalyst design.

Reactivity and self-assembly in confined spaces would cover the behavior of chemical species within nanoconfined environments such as colloidal nanoparticle surfaces, polymeric nanosystems, coordination cage cavities, and nanopores within porous materials.

 

Open for submissions until 30 June 2025


How to submit

If you would like to contribute to this themed collection

  1. Log into either the Nanoscale or Chem Comm online submission system.
  2. Submit your article
  3. Select your article type and under the “Themed issues” section in the submission form mention that it is an Open Call contribution to the Reactivity and Self-Assembly in Confined Spaces collection
  4. Add a “Note to the Editor” that this is from the Open Call

The Editorial Office reserves the right to check suitability of submissions in relation to the scope of both the journal and the collection, and inclusion of accepted articles in the final themed issue is not guaranteed. Please note that all submissions will be subject to initial assessment and rigorous peer review to meet the usual high standards of Nanoscale and ChemComm. All articles featured in the collection must be in scope and as such final inclusion is not guaranteed and will be up to the discretion of the guest editors.

We look forward to receiving your latest work and considering it for this collection. Please do get in touch at nanoscale-rsc@rsc.org if you have any questions at all.

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Nanocatalysis: A Nanoscale Themed Collection

Nanocatalysis

Guest edited by Dr In Young Kim, Dr Michelle Personick, and Dr Zhiqun Lin.

Nanocatalysis represents an exciting subfield in nanoscience and nanotechnology which involves the use of nanomaterials and subnano-sized materials (nanoclusters, diatoms, single atoms) as catalysts for a wide variety of homogeneous and heterogeneous catalytic applications. Along with significant advances in nanomaterial design and synthesis assisted by machine learning, in-situ/ex-situ characterization techniques, and computational chemistry, the past several decades have witnessed a flood of research activities in this rapidly evolving area with most of the studies focusing on the effects of size, shape, chemical composition and morphology on catalytic properties and performance. This has led to the development of highly effective catalysts with enhanced activity, selectivity, and stability.

This special themed collection aims to provide a platform to showcase the recent progress and challenges in the field of nanocatalysis.

All articles in the collection are free to read until April 2025

Read the collection

A promotional graphic for the nanoscatalysis collection

We invite you to discover the latest research from collection and to read the introductory editorial written by guest editors Dr In Young Kim, Dr Michelle Personick, and Dr Zhiqun Lin.

Read the introductory editorial

All of the articles in the collection are free to access until April 2025. Read some of the featured articles below.

 

Single and dual-atom catalysts towards electrosynthesis of ammonia and urea: a review.

Wenyu Luo, Jiawei Liu, Yue Huc and Qingyu Yan.

Nanoscale, 2024,16, 20463-20483

 

Atomically precise Au and Ag nanoclusters doped with a single atom as model alloy catalysts.
Shinya Masuda, Kosuke Sakamotoa and Tatsuya Tsukuda.

Nanoscale, 2024,16, 4514-4528

Consecutive one-pot alkyne semihydrogenation/alkene dioxygenation reactions by Pt(ii)/Cu(ii) single-chain nanoparticles in green solvent.

Jokin Pinacho-Olaciregui,  Ester Verde-Sesto,  Daniel Taton and  José A. Pomposo
Nanoscale
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2024,16, 9742-9747

Neodymium niobate nanospheres on functionalized carbon nanofibers: a nanoengineering approach for highly sensitive vanillin detection.
I.Jenisha Daisy Priscillal and Sea-Fue Wang.

Nanoscale, 2024,16, 12459-12473

Nanoscale is a high-impact international journal, publishing high-quality experimental and theoretical work across the breadth of nanoscience and nanotechnology. Our broad scope covers cross-community research that bridges the various disciplines involved with nanoscience and nanotechnology.

We hope you enjoy reading this collection and look forward to showcasing more work on optical nanomaterials in the future. Please continue to submit your exciting work to Nanoscale.

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