Outstanding Paper Award 2023

Announcing our Nanoscale Horizons Outstanding Paper Award winners

Our annual Outstanding Paper Award recognises some of the exceptional work published in Nanoscale Horizons, and the authors behind those articles. The winners are chosen by the Editorial and Advisory Boards based on the science presented and the work’s potential future impact.

Discover our 2023 winners here

Please join us in congratulating the winners of the 2023 Outstanding Paper Award! We hope that you enjoy reading their outstanding articles as much as we did! Read more about the prize winners and their research in our Editorial. Our companion journal Materials Horizons has also announced its Outstanding Paper Award winners. You can read all of the Materials Horizons and Nanoscale Horizons 2023 Outstanding Papers in our online collection.

Explore the full collection

To be eligible to receive a Nanoscale Horizons Outstanding Paper Award you must have published an article in the journal in the previous calendar year. All submissions will be subject to initial assessment and peer review as appropriate according to the journal’s guidelines. We would be delighted if you would consider Nanoscale Horizons for your next exceptionally high-quality and innovative nanoscience and nanotechnology submission. Find out more about the journal and submit your work now!

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Nanoscale Horizons Emerging Investigator Series – Baisheng Sa

By   .

Nanoscale Horizons Emerging Investigator Series

Congratulations to our latest Emerging Investigator Dr Baisheng Sa (Fuzhou University, China)!

Since the launch of Nanoscale Horizons, the journal has had a clear vision to publish exceptionally high-quality work whilst acting as a resource to researchers working at all career levels. We continue to be impressed by the quality of the research published and at the same time are looking for new ways of recognising and promoting the outstanding authors behind articles published in the journal.

We launched our Emerging Investigator Series to showcase the exceptional work published by early-career researchers in the journal and regularly select a recently published Communication article to feature in an interview-style Editorial article with the corresponding author. We hope that the series will also benefit the nanoscience community by highlighting the exciting work being done by its early-career members.

We are excited to share our latest Emerging Investigator, Dr Baisheng Sa (Fuzhou University, China)!

Photo of Baisheng Sa.

 

Dr Baisheng Sa received his B.Sc. (2008) in Materials Science and Engineering and Ph.D. (2014) in Materials Physics and Chemistry from Xiamen University. He is currently a professor in the School of Materials Science and Engineering at Fuzhou University. His research focuses on integrated computational modelling, density functional theory calculations and machine learning design of novel low-dimensional materials and van der Waals heterostructures for energy, environment, and electronic applications.

 

Read our interview with Baisheng here

Congratulations to Dr Baisheng Sa for his excellent work! You can read his featured Emerging Investigator article from Nanoscale Horizons below, which is free to access until the end of May 2024.

Graphical abstract image for Contact engineering for 2D Janus MoSSe/metal junctions.

Contact engineering for 2D Janus MoSSe/metal junctions
Yu Shu, Ting Li, Naihua Miao, Jian Gou, Xiaochun Huang, Zhou Cui, Rui Xiong, Cuilian Wen, Jian Zhou, Baisheng Sa and Zhimei Sun
Nanoscale Horiz., 2024, DOI: 10.1039/ D3NH00450C

 

We hope you enjoy reading our interview and featured article and are looking forward to sharing our future Emerging Investigators with you!

Do you publish innovative nanoscience and nanotechnology research? Submit your latest work to Nanoscale Horizons now. If you are eligible for the Emerging Investigators series, you could be considered to feature in one of our future interviews! Find out more about the eligibility criteria and the process in this editorial introducing the series.

 

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In vitro nanomaterial testing: unveiling biases through biomolecular corona influence

By Fangfang Cao, Community Board member.

Currently, nanomaterials (NM) are attracting significant attention in the field of biomedicine. However, once these nanomaterials are utilized for in vivo treatments they interact with the surrounding physiological environment, leading to the adsorption of various biomolecules onto their surfaces, forming a biomolecular corona (BMC) and thereby influencing the performance and behavior of the nanomaterials. Presently, the in vitro studies of NM primarily involve dispersing the nanoparticles in 10% fetal bovine serum (FBS) and then evaluating their toxicity and therapeutic effects. However, this evaluation method is insufficient as it cannot accurately simulate the conditions of human blood. Moreover, this practical issue remains unresolved to date.

 

Yellow structure representing human plasma corona with the label in vivo like. Red structure representing fetal bovine serum 10% corona. In between these is a circle inside of which the yellow structure sits with components of the red structure being added.

Fig 1. Schematic illustrating the molecular and biological biases arising from the well-known in vitro/in vivo mismatch in nanomedicine due to the biomolecular corona. Reproduced from DOI: 10.1039/D3NH00510K with permission from the Royal Society of Chemistry.

To validate the series of biases existing in established experimental practices and to advance the fields of nanomedicine and nanotoxicology, this study investigated two NM types with vastly different physicochemical properties commonly used in biomedicine. The research compared the molecular and biological biases resulting from the mismatch between NM dispersed in 10% FBS (utilized for in vitro biological assays) and whole human plasma (HP, closer to in vivo administration schemes). Through comparative analysis using proteomics, lipidomics, high-throughput multi-parameter in vitro screening, and single-molecule feature analysis, it was demonstrated that the dynamic changes in BMC composition are material dependent and that cell viability, transport pathways, and autophagic cascades are influenced by the presence or absence of pre-formed BMC corona. These findings underscore the potential limitations of NM in vitro testing in accurately representing real in vivo conditions. Therefore, it is necessary to establish new shared protocols to enhance the accuracy and predictive capability of NM testing.

In summary, this study confirms the biases that may exist when using standard in vitro conditions for NM toxicology assessments, reminding us of the need to establish a comprehensive experimental framework to generate and support new knowledge in the field of biologically relevant nanomaterial interactions. For instance, integrating advanced predictive tools such as artificial intelligence and machine learning will enable nanotoxicology and nanomedicine to progress towards personalized solutions for precision healthcare.

 

To find out more, please read:

Sources of biases in the in vitro testing of nanomaterials: the role of the biomolecular corona
Valentina Castagnola, Valeria Tomati, Luca Boselli, Clarissa Braccia, Sergio Decherchi, Pier Paolo Pompa, Nicoletta Pedemonte, Fabio Benfenati and Andrea Armirotti
Nanoscale Horiz., 2024, Advance Article


About the blogger


 

Fangfang Cao is a Research Fellow at National University of Singapore and a member of the Nanoscale Horizons Community Board. Dr Cao’s research focuses on nanocatalytic medicine and microbial therapy.

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Celebrating the 20th anniversary of NCNST

Celebrating the 20th anniversary of NCNST

Guest edited by Xinfeng Liu, Qing Dai, Zhixiang Wei, Chunying Chen and Yuliang Zhao

 

Cover for NCNST anniversary collection featuring some of the previous Nanoscale Horizons and Nanoscale covers from NCNST researchers over the last 20 years.

 

Last year we were delighted to celebrate the 20th anniversary of the National Center for Nanoscience and Technology (NCNST) with a special collection in Nanoscale Horizons, Nanoscale and Nanoscale Advances highlighting the breadth of high-quality work from the institute. We’re pleased to share this collection of research and reviews covering the most recent research progress in a wide spectrum of nanoscience and nanotechnology from researchers currently affiliated with NCNST as well as esteemed alumni.

You can explore the collection and read the introductory editorial from our guest editors below, with all articles free to access until the end of April 2024.

Read the collection

Professor Xinfeng Liu, Professor Qing Dai, Professor Zhixiang Wei, Professor Chunying Chen and Professor Yuliang Zhao served as guest editors for this collection and highlight the history of NCNST and significance of this anniversary in their introductory editorial.

Photos of Xinfeng Liu, Qing Dai, Zhixiang Wei, Chunying Chen and Yuliang Zhao.

Read the introductory editorial

All of the articles in the collection are free to access until the end of April 2024. Read some of the featured articles below.

Reviews

Graphical abstract image for Nanostructures in Chinese herbal medicines (CHMs) for potential therapy.

Nanostructures in Chinese herbal medicines (CHMs) for potential therapy
Ya-Li Zhang, Ya-Lei Wang, Ke Yan, Qi-Qi Deng, Fang-Zhou Li, Xing-Jie Liang and Qian Hua
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH00120B

 

Graphical abstract image for Strategies and applications of generating spin polarization in organic semiconductors.

Strategies and applications of generating spin polarization in organic semiconductors
Ke Meng, Lidan Guo and Xiangnan Sun
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH00101F

 

Communications

Graphical abstract image for Stereoselective coronas regulate the fate of chiral gold nanoparticles in vivo.

Stereoselective coronas regulate the fate of chiral gold nanoparticles in vivo
Didar Baimanov, Liming Wang, Ke Liu, Mengmeng Pan, Rui Cai, Hao Yuan, Wanxia Huang, Qingxi Yuan, Yunlong Zhou, Chunying Chen and Yuliang Zhao
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH00124E

 

Graphical abstract image for Modulation of the assembly fashion among metal–organic frameworks for enantioretentive epoxide activation.

Modulation of the assembly fashion among metal–organic frameworks for enantioretentive epoxide activation
Jun Guo, Xiaomin Xue, Fangfang Li, Meiting Zhao, Youcong Xing, Yanmin Song, Chang Long, Tingting Zhao, Yi Liu and Zhiyong Tang
Nanoscale Horiz., 2024, DOI: 10.1039/D3NH00419H

 

Graphical abstract image for Improving the efficiency of ternary organic solar cells by reducing energy loss.

Improving the efficiency of ternary organic solar cells by reducing energy loss
Mengni Wang, Yanan Shi, Ziqi Zhang, Yifan Shen, Min Lv, Yangjun Yan, Huiqion Zhou, Jianqi Zhang, Kun Lv, Yajie Zhang, Hailin Peng and Zhixiang Wei
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH00122A

 

Nanoscale Horizons and Nanoscale are high-impact international journals, publishing high-quality experimental and theoretical work across the breadth of nanoscience and nanotechnology. Nanoscale Advances is our gold open access member of the nanoscale journal family. Our broad scope covers cross-community research that bridges various disciplines, and the journal series allows full coverage of interdisciplinary advances in nanoscience and nanotechnology. We hope you will consider Nanoscale Horizons, Nanoscale and Nanoscale Advances for your future submissions.

We hope you enjoy reading this collection and look forward to showcasing more work from NCNST in the future. Please continue to submit your exciting work to Nanoscale Horizons, Nanoscale and Nanoscale Advances.

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Carbon-based nanomaterials

Carbon-based nanomaterials

A collection of recent articles from Nanoscale Horizons and Nanoscale

Nanoscale Horizons and Nanoscale are pleased to present a collection highlighting the latest research published in the journals on carbon-based nanomaterials.

Read the collection

Check out this selection of articles from the collection, with many more available online.

Boosting efficiency of luminescent solar concentrators using ultra-bright carbon dots with large Stokes shift
Jiurong Li, Haiguang Zhao, Xiujian Zhao and Xiao Gong
Nanoscale Horiz., 2023, DOI: 10.1039/D2NH00360K

Graphene foam membranes with tunable pore size for next-generation reverse osmosis water desalination (Open Access)
Duc Tam Ho, Thi Phuong Nga Nguyen, Arun Jangir and Udo Schwingenschlögl
Nanoscale Horiz., 2023, DOI: 10.1039/D2NH00475E

Water-soluble green-emitting carbon nanodots with enhanced thermal stability for biological applications
Waheed Ullah Khan, Liying Qin, Abid Alam, Ping Zhou, Yong Peng and Yuhua Wang
Nanoscale, 2021, DOI: 10.1039/D0NR09131F

Progress in the use of organic potassium salts for the synthesis of porous carbon nanomaterials: microstructure engineering for advanced supercapacitorsQian Zhang, Bing Yan, Li Feng, Jiaojiao Zheng, Bo You, Jiayun Chen, Xin Zhao, Chunmei Zhang, Shaohua Jiang and Shuijian He
Nanoscale, 2022, DOI: 10.1039/D2NR01986H

We would be delighted if you would consider Nanoscale Horizons or Nanoscale for your next submission, which can be made using the link below.

Submit your research

Nanoscale Horizons and Nanoscale are high-impact international journals, 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 will consider Nanoscale Horizons and Nanoscale for your future submissions.

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2024 Lunar New Year Collection

Happy Lunar New Year

Happy Chinese and Lunar New Year from everyone on the Nanoscale Horizons, Nanoscale and Nanoscale Advances teams! To celebrate the start of the Year of the Dragon, we are delighted to highlight some of the most popular articles published in our nanoscience journals last year by corresponding authors based in countries celebrating the Lunar New Year.

Read the collection now

Nanoscale Horizons, Nanoscale and Nanoscale Advances Lunar New Year promotional graphic with a red background and an image of a gold dragon surrounded by clouds and fireworks. Text reads: " Wishing you a Happy Lunar New Year 2024, May you enjoy a very prosperous and productive year of the Dragon".

All of the articles in these collections are free to access until the end of March 2024. We hope you enjoy reading these popular articles and wish you a happy, healthy and prosperous year of the dragon!

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Time’s dance with gold: tracking the isomeric fluctuations of Au clusters

By Jingshan Du, Community Board member.

Face-centered cubic (fcc) metals, such as Au and Ag, usually adopt a packed crystal structure in bulk. However, the equilibrium structure could differ when only a handful of atoms compose a nanocluster. Theories have predicted that particles less than a few nanometers would favor a decahedral packing with a five-fold symmetry; when even fewer atoms are present, say less than two hundred, a 20-fold icosahedral packing would become the lowest-energy configuration. Such fluctuations of the nuclei/seeds may have played a critical role in defining the shape of colloidal nanoparticles in many wet chemical syntheses.

In recent work, a cross-institutional team led by Richard E. Palmer and Thomas J. A. Slater reported the direct observation of such fluctuations on a nearly second-by-second basis. The team synthesized Au nanoclusters containing 309±15 atoms on an amorphous carbon film through mass-selected magnetron sputtering. Subsequently, aberration-corrected scanning transmission electron microscopy (STEM) was employed to track the atomic structures of Au nanoclusters with a frame rate of 0.4–0.7 per second (Fig. 1). To identify the cluster type in each frame, the team compared them to a collection of simulated images with different cluster structures and tilt angles. The clusters exhibited highly dynamic switching between decahedral, icosahedral, and single-crystalline structures under the electron beam, which is sufficiently strong to overcome the energy barriers between such transitions.

Fig. 1 Au309±15 clusters fluctuating under the electron beam. High-angle annular dark field (HAADF) imaging on an aberration-corrected scanning transmission electron microscope (STEM) resolved the atomic structure of these Au nanoclusters frame by frame. Adapted from the supporting data DOI: 10.5281/zenodo.10522408, CC-BY 4.0.

 

Notably, the authors showed that the Au309±15 clusters favor the decahedral structure the most, followed by icosahedral and then single-crystalline structures (Fig. 2a). This result is consistent with the probabilities obtained from a snapshot of an ensemble. In theory, the lower-energy structures would have a higher probability of appearance. The ranking of isomeric preferences observed in this study indicates that the cluster size is within a range where the energy ranks in fcc > icosahedral > decahedral (Fig. 2b). Taken together, this work illustrates the possibility of atomic-resolution electron microscopy, when combined with image simulations, to track the isomeric evolution of metal nanoclusters and may shed light on how we understand and regulate nanostructures with atomic precision.

Fig. 1 (a) Histogram of isomer abundances from dynamic movies compared with a static image of a cluster ensemble. Reproduced from DOI: 10.1039/D3NH00291H with permission from the Royal Society of Chemistry. (b) Schematic energy landscape of cluster structures for fcc metals. A red shade indicates the cluster size range in the current study. Ih: icosahedral. Dh: decahedral. Adapted from DOI: 10.1002/anie.202015166 with permission from Wiley-VCH.

 

To find out more, please read:

Frame-by-frame observations of structure fluctuations in single mass-selected Au clusters using aberration-corrected electron microscopy
Malcolm Dearg, Cesare Roncaglia, Diana Nelli, El Yakout El Koraychy, Riccardo Ferrando, Thomas J. A. Slater, and Richard E. Palmer
Nanoscale Horiz., 2024, 9, 143-147

 


About the blogger


 

Jingshan S. Du is a Washington Research Foundation Postdoctoral Fellow at Pacific Northwest National Laboratory and a member of the Nanoscale Horizons Community Board. His research spans crystal formation and transformation pathways, in situ electron microscopy, and hybrid organic/inorganic nanostructures. Du received a Ph.D. in Materials Science and Engineering from Northwestern University in 2021. At Northwestern, he worked on complex nanoparticle systems, correlative electron microscopy of hybrid nanostructures, and nanoscale thermodynamics. Du received a Certificate for Management for Scientists and Engineers from Northwestern’s Kellogg School of Management in 2021 and a B.Sc. in Engineering from Zhejiang University Chu Kochen Honors College in 2015. You can follow him on Twitter @JingshanDu.

The views expressed in this article do not necessarily reflect those of the author’s employer or the US government.

 

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Our most popular 2023 articles

The most popular Nanoscale Horizons articles from 2023

We wanted to share with you some of the most popular articles published in Nanoscale Horizons over the last year, determined by their citations, downloads and altmetric scores.

Read the most popular Nanoscale Horizons articles

All of the articles in the collection are free to access until the end of February 2024. Discover some of the featured articles below.

Reviews

Graphical abstract image for Interfacial built-in electric-field for boosting energy conversion electrocatalysis.

Interfacial built-in electric-field for boosting energy conversion electrocatalysis
Hui Xu,* Junru Li and Xianxu Chu*
Nanoscale Horiz., 2023, DOI: 10.1039/D2NH00549B

 

Graphical abstract image for Functionalizing nanophotonic structures with 2D van der Waals materials.

Functionalizing nanophotonic structures with 2D van der Waals materials
Yuan Meng, Hongkun Zhong, Zhihao Xu, Tiantian He, Justin S. Kim, Sangmoon Han, Sunok Kim, Seoungwoong Park, Yijie Shen, Mali Gong, Qirong Xiao* and Sang-Hoon Bae*
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH00246B

 

Graphical abstract image for Advances in Cu nanocluster catalyst design: recent progress and promising applications.

Advances in Cu nanocluster catalyst design: recent progress and promising applications
Sourav Biswas, Saikat Das* and Yuichi Negishi*
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH00336A

 

Communications

Graphical abstract image for Boosting efficiency of luminescent solar concentrators using ultra-bright carbon dots with large Stokes shift.

Boosting efficiency of luminescent solar concentrators using ultra-bright carbon dots with large Stokes shift
Jiurong Li, Haiguang Zhao,* Xiujian Zhao and Xiao Gong*
Nanoscale Horiz., 2023, DOI: 10.1039/D2NH00360K

 

Graphical abstract image for Anti-PEG antibodies enriched in the protein corona of PEGylated nanocarriers impact the cell uptake.

Anti-PEG antibodies enriched in the protein corona of PEGylated nanocarriers impact the cell uptake
Mareike F. S. Deuker, Volker Mailänder, Svenja Morsbach* and Katharina Landfester
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH00198A

 

Graphical abstract image for Phosphinecarboxamide based InZnP QDs – an air tolerant route to luminescent III–V semiconductors.

Phosphinecarboxamide based InZnP QDs – an air tolerant route to luminescent III–V semiconductors
Yi Wang, Jack Howley, Erica N. Faria, Chen Huang, Sadie Carter-Searjeant, Simon Fairclough, Angus Kirkland, Jason J. Davis, Falak Naz, Muhammad Tariq Sajjad, Jose M. Goicoechea* and Mark Green*
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH00162H

We hope you enjoy reading these popular articles and would be delighted if you would consider Nanoscale Horizons for your next submission.

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Injectable hydrogel reinforces cancer immunotherapy

By Susel Del Sol Fernández, Community Board member.

In the last few years, immunotherapy has paved new paths for effective treatment of different cancers. Specifically, immunotherapy stimulates T cells, a type of white blood cell called lymphocytes that help to fight germs and destroy tumours. Immunotherapy can be used as a monotherapy or combined with chemotherapy and surgery. Unfortunately, cancer cells and their microenvironment have many sophisticated defence mechanisms that pose considerable challenges to immunotherapy effectiveness and progress. Current strategies to boost cancer immunotherapy include increasing the infiltration of T cells at the tumour site or blocking immune checkpoint-producing immune evasion.

In this regard, an exciting immunotherapy combination approach has been developed by Guixiang Xu and team based on an injectable hydrogel as a carrier to deliver a drug called linagliptin which is capable of inhibiting dipeptidyl peptidases 4 (DPP4) degradation. This leads to prolonged half-life of CXCL10 chemokines and thus, increases recruitment of T cells in the tumour site. Small molecule immune checkpoint blocker (BMS-202) particles were also loaded onto the developed drug carrier to block the programmed cell death-ligand (PD-L1), avoiding immune evasion. The team demonstrated that the application of hydrogel construct (S@LB) suppresses chemokine CXCL10 degradation, increasing T-cell infiltration, while BMS-202 particles inactivate PD-L1 checkpoint in vivo.

Fig. 1 Preparation and mechanism scheme of S@LB. (A) The preparation process of the S@LB solution. (B) Schematic illustration of an injectable hydrogel to reinforce cancer immunotherapy by promoting infiltration of T cells and regulating immune evasion. Reproduced from DOI: 10.1039/D3NH00401E with permission from the Royal Society of Chemistry.

The team tested the in vivo anti-tumour ability, immune response, and lung anti-metastatic effect of the S@LB in combination with chemotactic CXCL10 (S@LB + CXCL10). Their recent report shows that after 18 days of tumour removal, an immune memory effect was detected for the group treated with S@LB + CXCL10.

Overall, this study shows how nano-based hydrogel immunotherapy can be used as an innovative “weapon” against primary and distant tumours, along with efficient inhibition of lung metastasis, indicating tremendous potential for developing transformative clinical applications.

 

To find out more, please read:

Hydrogel-mediated tumor T cell infiltration and immune evasion to reinforce cancer immunotherapy
Guixiang Xu, Kai Liu, Xiangwu Chen, Yang Lin, Cancan Yu, Xinxin Nie, Wenxiu He, Nathan Karinc and  Yuxia Luan
Nanoscale Horiz., 2024, Advance Article

 


About the blogger


 

Susel Del Sol Fernández is a Marie Skłodowska-Curie Postdoctoral fellow at Aragon Nanoscience and Materials Institute (INMA-CSIC), Spain and a member of the Nanoscale Horizons Community Board. Dr Del Sol’s research focuses on designing smart functionalized magnetic nanoparticles for biomedical applications, including magnetic-optical hyperthermia treatment and magnetogenetics. You can follow her on X @SuselDelSol

 

 

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Nanoscale Horizons: Looking back at 2023

Looking back at 2023

An overview of the exciting events, activities and news for Nanoscale Horizons from 2023

Now that 2023 has come to an end, we look back at some of the exciting events, activities and news from Nanoscale Horizons. We are continually thankful for the nano community’s engagement, which has enabled the journal to continue to support our growing community. We look forward to another great year for the journal in 2024.

Read our editorial looking back at 2023

 

Board updates

Professor Katsuhiko Ariga (National Institute for Materials Science, Japan), Dr Miaofang Chi (Oak Ridge National Laboratory, USA) and Professor Jin-Hong Park (Sungkyunkwan University, South Korea) joined the journal’s Editorial Board. We look forward to working with them to maximize the quality and impact of Nanoscale Horizons in the nano community.

Photos of Katsuhiko Ariga, Miaofang Chi and Jin-Hong Park.

Outstanding paper award

We were delighted to announce Seung Hwan Ko and his team, Ester Segal and her team, and Jordi Arbiol and his team as the winners of our 2022 Outstanding Paper Awards earlier last year.

Please join us in congratulating the winners of the 2022 Outstanding Paper Award and we hope that you enjoy reading their outstanding articles as much as we did.

Nanoscale Horizons Outstanding Paper Award promotional graphic.

Emerging investigator series

This year saw the continuation of our Emerging Investigator series, which showcases the exceptional work published by early-career researchers (i.e., less than ten years post-PhD) in the journal. The series continues to regularly highlight the corresponding author of a recently published Communication article through an interview-style Editorial and this year we featured interviews with 8 early-career researchers.

Collage of the 2023 Nanoscale Horizons Emerging Investigators. Photos (left to right) of (top) Kayoko Kobayashi, Ran Long, Saptarshi Das and Luciano Colazzo; (bottom) Christoph Wolf, Yujeong Bae, Ahu Gümrah Dumanli-Parry, and Shalini Singh.

If you are eligible and interested in submitting a paper for potential inclusion in the series, please contact the Editorial office for details.

International Women’s Day

To celebrate International Women’s Day 2023 we highlighted some of the excellent female researchers publishing impactful work in nanoscience in a special collection published in Nanoscale Horizons, Nanoscale and Nanoscale Advances. The collection featured work led by female scientists around the world and showcased the impact these leading individuals have on the research published within our nanoscience journals.

Explore our Women in Nanoscience collection

If you have published in Nanoscale Horizons in 2023, and either the first and/or corresponding author of your article is a woman, you can feature in our 2024 collection! Please contact the Editorial office with the title of your article, DOI and a headshot photo of the eligible author by 1 March 2024 if you wish to be included in the collection, which will be promoted this International Women’s Day, 8 March 2024. At the Royal Society of Chemistry, we foster a culture of inclusion of women from all walks of life and look forward to continuing to celebrate all of the wonderful women in nanoscience.

Community board updates

The Nanoscale Horizons Community Board provides a platform for early career researchers to share their experiences and ideas on scientific publishing. Over the summer, we requested nominations from the nanoscience academic community and were thrilled with the high calibre of candidates nominated. We were delighted to appoint 27 new members who, together with continuing members, make up a Community Board of 50 international researchers at different stages of their early careers, ranging from PhD candidates to Professors. Meet our new Community Board members below.

Photos left to right of (top) Amina Benchohra, Fangfang Cao, Yihuang Chen, Dennis Christensen, Didem Dede, Sara, Domenici, Jingshan Du, Yuan Fang and Susel Del Sol Fernández; (middle) Minjeong Ha, Xue Han, Taskeen Janjua, Meysam Keshavarz, Yoonseob Kim, Zhiwei Li, Chunchun Li, Albert Liu and Jette Mathiesen; (bottom) Dinesh Mullangi, Michael B. Ross, Tracy Schloemer, Qianqian Shi, Jaime Andres Perez Taborda, Chao Wang, Zhenhua Wu, Akiko Yagi and Jiandong Yao.

Community board picks

Working with our Community Board we launched a new series of Community Board Picks, short article summaries highlighting the most recent advances in nanoscience and sharing our Community Board’s unique expertise.

Graphical abstract image showing H2O2 production on a transition metal embedded graphitic carbon nitride sheet.

 

Electrifying H2O2 synthesis with g-C3N-based single atom catalysts
Jungki Ryu*
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH90041J

 

Graphical abstract image showing a siRNA-loaded DNA nanostructure, a damage and a restored endothelium.

 

siRNA-loaded DNA nanostructures restore endothelial leakiness
Arun Richard Chandrasekaran*
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH90040A

 

Graphical abstract image showing the SERS substrate and enhancement of the SERS intensity.

 

Enhancing SERS activity with a pyroelectric-induced charge-transfer effect
Xiaolu Zhuo*
Nanoscale Horiz., 2024, DOI: 10.1039/D3NH90043F

 

Themed collection

We launched several special themed collections last year in collaboration with Materials Horizons and Nanoscale. We were delighted to publish so many outstanding articles on these important topics. Discover our 2023 collections below.

Horizons symposium

The first Horizons symposium, organized by Nanoscale Horizons and Materials Horizons, was held in Berlin, Germany earlier this year and showcased a wide variety of cutting-edge work in the areas of electronic and photonic materials, and materials for energy applications, with chemists, physicists and materials scientists presenting their most outstanding work. We were delighted to arrange such a successful conference and look forward to sharing the details of our 2024 edition with you next year. We hope to see you there.

Outstanding reviewers

We also recognized the significant contributions that our reviewers have made to the journal by highlighting the 2022 Outstanding Reviewers for Nanoscale Horizons. We would like to take this opportunity to thank all reviewers for Nanoscale Horizons and acknowledge their incredible support and the dedication of their time to providing high-quality, timely and helpful reports on submissions to the journal.

We are all aware that time is an incredibly valuable resource. All the more we are deeply indebted to our top reviewers who have invested their time to write valuable and high-quality reviews. Only with such reviews can Nanoscale Horizons be among the top journals and steadily grow in importance.” – Professor Dr Katharina Landfester, Editorial Board Chair

Focus articles

Finally, discover our latest educational articles, addressing topic areas that are often misunderstood or require greater explanation, in the Nanoscale Horizons Focus Article Collection.

Graphical abstract image showing different compositions of bimetallic core-shell nanoparticles.

 

Bimetallic core–shell nanocrystals: opportunities and challenges
Chenxiao Wang, Yifeng Shi, Dong Qin and Younan Xia*
Nanoscale Horiz., 2023, DOI: 10.1039/D3NH00098B

 

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