Archive for the ‘Community Spotlight – Advisory Board members’ Category

Materials Horizons 10th anniversary Community Spotlight; Meet some more of our esteemed Advisory Board Members!

Introducing the Materials Horizons Advisory Board – Part 3.

This year we are pleased to celebrate the tenth anniversary of Materials Horizons. We are so grateful to our fantastic community of authors, reviewers, Board members and readers and wanted to showcase just some of them in a series of ‘Community Spotlight’ blog articles.

In this ‘Community Spotlight’, we feature some more of the Advisory Board members who have supported Materials Horizons over the years. We have asked them what they like most about being on the journal’s Advisory Boards, about their recent publications and about their own insights into the future of materials chemistry. Check out their interview responses and related articles below.

Nan Zhang, Advisory Board Member

Hunan University, China

 

Nan Zhang is now a professor in the College of Materials Science and Engineering, Hunan University. Her main research interests include the design and optical properties of metal-based composites for photocatalytic applications and their mechanism investigations

What does it mean to you to join the Advisory Board of Materials Horizons?

“Joining the Advisory Board of Materials Horizons is an opportunity to share my expertise and knowledge to a global community of experts in the area of materials science. It could also provide me with the chance to collaborate with other like-minded individuals and make a meaningful impact on the future of materials chemistry. Additionally, being a part of the Advisory Board of Materials Horizons could offer opportunities for networking and professional development, as well as exposure to new ideas and perspectives.”

 

What in your field are you most excited about?

“Regulation of the optical properties of metal nanostructures is an important aspect of photocatalysis, as it can significantly affect the efficiency and selectivity of photocatalytic reactions, which is one of my research interests. To regulate the optical properties of metal nanostructures in photocatalytic systems, we employ various techniques such as surface engineering, material synthesis, and optoelectronic design.”

Why do you feel that researchers should choose to publish their work in Materials Horizons?

“Materials Horizons is well-suited for publishing work that explores the properties, applications, and development of new materials. Materials Horizons has a large and diverse readership, including researchers, students, and industry professionals in the field of materials chemistry. This indicates that authors who publish their work in the journal can reach a wide audience and engage with other experts in the field. Moreover, Materials Horizons has a dedicated team of experienced editors who provide thorough and constructive feedback to authors throughout the publication process, facilitating authors to benefit from expert support and guidance in improving their research and preparing it for publication.”

 

Check out some of Nan Zhang’s latest research here:

A study on the role of plasmonic Ti3C2Tx MXene in enhancing photoredox catalysis
Guanshun Xie, Chuang Han, Fei Song, Yisong Zhu,a Xuanyu Wang, Jialin Wang, Zhenjun Wu, Xiuqiang Xie and Nan Zhang.

Nanoscale, 2022,14, 18010-18021. DOI: 10.1039/D2NR05983E

 

 Electrostatically confined Bi/Ti3C2Tx on a sponge as an easily recyclable and durable catalyst for the reductive transformation of nitroarenes

Changqiang Yu, Linfen Peng, Yisong Zhu, Guanshun Xie, Zhenjun Wu, Xiuqiang Xie and Nan Zhang
J. Mater. Chem. A, 2021,9, 19847-19853. DOI: 10.1039/D1TA02736K

 

Rising from the horizon: three-dimensional functional architectures assembled with MXene nanosheets

Fei Song, Guohao Li, Yisong Zhu, Zhenjun Wu, Xiuqiang Xie and Nan Zhang
J. Mater. Chem. A
, 2020,8, 18538-18559. DOI: 10.1039/D0TA06222G

 

 

Vincent Rotello, Advisory Board Member

University of Massachusetts Amherst, USA

 

Vincent Rotello is the Charles A. Goessmann Professor of Chemistry and a University Distinguished Professor at the University of Massachusetts at Amherst. He received his B.S. in Chemistry in 1985 from Illinois Institute of Technology, and his Ph. D. in 1990 in Chemistry from Yale University. He was an NSF postdoctoral fellow at Massachusetts Institute of Technology from 1990-1993,  and joined the faculty at the University of Massachusetts in 1993. He has been the recipient of the NSF CAREER and Cottrell Scholar awards, as well as the Camille Dreyfus Teacher-Scholar, the Sloan Fellowships. He has received the Arthur C. Cope Scholar Award in 2023, in 2016 he was awarded the Transformational Research and Excellence in Education Award presented by Research Corporation, the Bioorganic Lectureship of the Royal Society of Chemistry (UK), the Australian Nanotechnology Network Traveling Fellowship, the Chinese Academy of Sciences President’s International Fellowship for Distinguished Researchers. (2016) and the Langmuir Lectureship (2010). He is a Fellow of both the American Association for the Advancement of Science (AAAS) and of the Royal Society of Chemistry (U.K.). He is also recognized in 2014, 2015, 2018-2022 by Thomson Reuters/Clarivate as “Highly Cited Researcher”

His research program focuses on using synthetic organic chemistry to engineer the interface between the synthetic and biological worlds, and spans the areas of devices, polymers, and nanotechnology/bionanotechnology, with over 650 peer-reviewed papers published to date. He is actively involved in the area of bionanotechnology, and his research includes programs in delivery, imaging, diagnostics and nanotoxicology.

What do you like most about being on the Advisory Board for Materials Horizons?

“I really enjoy watching MH grow and mature. I was around when the concept for MH was developed, and was involved in the brainstorming that identified a new and interesting name with “materials” in the title–not an insignificant challenge! I have been engaged with the journal all through the process of the first issue, the first impact factor, and watching the reputation (and IF) of the journal take its place in the forefront of materials science.”

What do you think of Materials Horizons as a place to publish impactful materials chemistry research?

MH is amongst my very favourite places to publish, and we’re always proud when one of our papers is accepted.  The journal features an excellent combination high impact and rigor, traits that are increasingly becoming difficult to find in one place.

Check out some of Vince Rotello’s latest research here:

Antimicrobial polymer-siRNA polyplexes as a dual-mode platform for the treatment of wound biofilm infections

Taewon Jeon, Jessa Marie V. Makabenta,  Jungmi Park, Ahmed Nabawy, Yagiz Anil Cicek, Sarah S. Mirza, Janelle Welton, Muhammad Aamir Hassan,  Rui Huang,  Jesse Mager and Vincent M. Rotello
Mater. Horiz.
, 2023,10, 5500-5507. DOI: 10.1039/D3MH01108A

 

Selective treatment of intracellular bacterial infections using host cell-targeted bioorthogonal nanozymes

Joseph Hardie, Jessa Marie Makabenta, Aarohi Gupta, Rui Huang, Roberto Cao-Milán,  Ritabrita Goswami, Xianzhi Zhang, Parvati Abdulpurkar, Michelle E. Farkas and Vincent M. Rotello
Mater. Horiz.
, 2022,9, 1489-1494. DOI: 10.1039/D1MH02042K

 

Erythrocyte-mediated delivery of bioorthogonal nanozymes for selective targeting of bacterial infections

Akash Gupta, Riddha Das, Jessa Marie Makabenta, Aarohi Gupta, Xianzhi Zhang, Taewon Jeon, Rui Huang, Yuanchang Liu, Sanjana Gopalakrishnan, Roberto-Cao Milána and Vincent M. Rotello

Mater. Horiz., 2021,8, 3424-3431. DOI: 10.1039/D1MH01408K

 

Aldo Zarbin, Advisory Board Member

Federal University of Paraná (UFPR), Brazil

 

Aldo José Gorgatti Zarbin is graduated (1990), Master (1993) and PhD (1997) in Chemistry. He is full professor at Department of Chemistry of Federal University of Paraná (UFPR), in Brazil. Fellow of the Royal Society of Chemistry (RSC), former President of the Brazilian Chemical Society (2016-2018), permanent member of the Brazilian Academy of Sciences and coordinator of the National Institute of Science and Technology of Nanomaterials for Life (INCT NanoVida). His main scientific interests are the synthesis, characterization, study of properties and applications of different nanomaterials, as carbon nanotubes, graphene, 2D-materials, metal nanoparticles and conducting polymer-based nanocomposites; their processing as thin films and their application in energy (batteries, supercapacitor, photovoltaics, electrochromic), sensors and catalysis.

 

What do you like most about being on the Advisory Board for Materials Horizons?

“First of all it is a great honor being member of the Advisory Board of this prestigious Journal. Personally, it represents the recognition of the quality of the science that I have been developing, which is very significant.  I really like the contact with the people in the editorial office, who are always very kind, and being able to share opinions and give reports on the high quality articles that are submitted to the journal. It is a privilege to read in advance the best that has been produced in this fascinating area of knowledge.”

 

Where do you see the materials chemistry field in the next 10 years?

Materials chemistry is the pathway to solve some of the major problems that currently afflict us. I see materials chemistry concerning about the social relevance of science as a whole, improving the welfare of the people, aiming sustainability and looking for ways to reduce the poverty and the social inequality. For example, I see a strong a development on the synthesis and processing of novel (or old ones with a new guise) materials to improve the efficiency of processes such as CO2 capture and conversion, solar photovoltaic conversion, green hydrogen generation, high-capacity batteries, aqueous-environment operating devices, etc; materials for health (implants, drug-deliver, artificial skin); materials to detoxify the environment; materials to make potable water, etc.”

Some of Aldo Zarbin’s latest research can be found here:

A tunable color palette of electrochromic materials achieved through an ingenious stacking of ordinary conducting polymers

Victor H. R. Souza, Ariane Schmidt and Aldo J. G. Zarbin
J. Mater. Chem. A
, 2023,11, 18853-18861. DOI: 10.1039/D3TA02860G

 

Prussian blue and its analogues as functional template materials: control of derived structure compositions and morphologies

Behnoosh Bornamehr, Volker Presser, Aldo J. G. Zarbin, Yusuke Yamauchi and Samantha Husmann
J. Mater. Chem. A
, 2023,11, 10473-10492. DOI: 10.1039/D2TA09501G

 

Nanoarchitected graphene/copper oxide nanoparticles/MoS2 ternary thin films as highly efficient electrodes for aqueous sodium-ion batteries

Maria K. Ramos, Gustavo Martins, Luiz H. Marcolino-Junior, Márcio F. Bergamini, Marcela M. Oliveira and Aldo J. G. Zarbin

Mater. Horiz., 2023,10, 5521-5537. DOI: 10.1039/D3MH00982C

 

Uttam Manna, Advisory Board Member

Indian Institute of Technology Guwahati, India

Uttam Manna, Fellow of Royal Society of Chemistry (FRSC), is currently an associate professor at Department of Chemistry—and affiliated with Centre for Nanotechnology and Jyoti and Bhupat Mehta School of Health Science and Technology in Indian Institute of Technology, Guwahati (IITG). He completed his Integrated PhD from IISc Bangalore in 2011. He pursued his post-doctoral research from University of Wisconsin-Madison, USA. He is recognized as an emerging investigator by Journal of Materials Chemistry A (2018), Chemical Communications (2020), Nanoscale (2021) and Chemical Society Reviews (2022). In 2023, Chemical Communications journal also recognized him as a pioneering investigator. He received the CRSI Bronze Medal for the year 2023. He is also a recipient of the Humboldt Research Fellowship for Experienced Researchers in 2021.

His research team is interested in designing functional and durable coatings embedded with bio-inspired wettability through the strategic association of robust and facile chemical approaches for energy, environment and health related different applications—including efficient oil/water separation, improving performance of water splitting, self-cleaning, chemical sensing, programmed release of small molecule, anticounterfeiting, no-loss liquid transport, strain sensing, joule heating etc.

 

What do you think of Materials Horizons as a place to publish impactful materials chemistry research?

I found Materials Horizons is one of the finest journals to publish research related to material chemistry—as this journal publishes research works on diverse topics of material chemistry. I found researchers from various scientific and engineering backgrounds publishing their exciting and fresh research ideas in this journal. Thus, this journal is widely recognized by the community of material chemistry. I would definitely mention here that the ‘New Concepts’ section of the article in the journal, really helps to quickly recognize the novelty and design principle of the published research works. This journal is a perfect home for seminal research works on materials chemistry.

 

Could you provide a summary of your most recent Materials Horizons publication?

“In the published communication (Mater. Horiz., 2023, 10, 2204), we have introduced a self-cleanable multilevel anticounterfeiting interface through covalent chemical modulation of physically unclonable and chemically reactive coating. We have spatially selectively modulated a dual chemically reactive coating—following 1,4-conjugate addition reaction and Schiff-base reaction to achieve an extremely water repellent pattern interface embedded with distinct water adhesion property and fluorescence property. The selective chemical modulation controls the fraction of contact area between water and chemically modified interface. Eventually this principle provided a facile basis to naked-eye visualization of hidden patterns on water exposure—and it disappears immediately after removal of the pattern interface from water exposure.”

Read some of Uttam Manna’s research here:

Design of a self-cleanable multilevel anticounterfeiting interface through covalent chemical modulation

Manideepa Dhar, Ufuoma I. Kara, Supriya Das, Yang Xu, Sohini Mandal, Robert L. Dupont, Eric C. Boerner, Boyuan Chen, Yuxing Yao, Xiaoguang Wang and Uttam Manna

Mater. Horiz., 2023,10, 2204-2214. DOI: 10.1039/D3MH00180F

 

Dually reactive multilayer coatings enable orthogonal manipulation of underwater superoleophobicity and oil adhesion via post-functionalization

Angana Borbora, Robert L. Dupont,  Yang Xu, Xiaoguang Wang and Uttam Manna
Mater. Horiz.
, 2022,9, 991-1001. DOI: 10.1039/D1MH01598B

 

Abrasion tolerant, non-stretchable and super-water-repellent conductive & ultrasensitive pattern for identifying slow, fast, weak and strong human motions under diverse conditions

Supriya Das, Rajan Singh, Avijit Das, Sudipta Bag, Roy P. Paily and Uttam Manna
Mater. Horiz.
, 2021,8, 2851-2858. DOI: 10.1039/D1MH01071A

 

Shannon Yee, Advisory Board Member

Georgia Institute of Technology, USA

Dr. Shannon Yee is an Associate Professor at the G.W.W. School of Mechanical Engineering at the Georgia Institute of Technology. Dr. Yee joined Georgia Tech in 2014 directly from his PhD at the University of California Berkeley.  Amid his studies, he joined the US. Dept. of Energy’s Advanced Research Projects Agency for Energy (ARPA-E) during its inaugural year as the first ARPA-E Fellow.  Dr. Yee completed his MS in Nuclear Engineering in 2008 and his BS in Mechanical Engineering in 2007, both from The Ohio State University. In 2008, he was awarded a prestigious Hertz Fellowship.  In 2015, Dr. Yee was selected for an AFOSR Young Investigator Award to develop polymer thermoelectrics.  Dr. Yee is the recipient of the 2017 American Society of Mechanical Engineering Pi-Tau-Sigma Gold Medal award for “outstanding contributions to the field of Mechanical Engineering in the first decade of one’s career.”  In 2019, Shannon was selected for an ONR Young Investigator Award to develop polymer thermal switches.  Most recently, Dr. Yee has been directing the Generation 2 Reinvent the Toilet (G2RT) program, and was recognized as one of Bill Gate’s Heroes in the Field in 2021.  Additionally, he has been instrumental at Georgia Tech is helping to establish The New York Climate Exchange and is currently serving as the co-chair for Research, Technology, and Commercialization efforts, coordinating a global community of academic, corporate, and non-profit institutions to address climate change.

What do you like most about being on the Advisory Board for Materials Horizons?

“I enjoy connecting with research colleagues and supporting the dissemination of knowledge through the Materials Horizons publication. “

What do you think of Materials Horizons as a place to publish impactful materials chemistry research?

“Materials Horizons is unique. It provides a platform to share materials chemistry developments that enable new technologies.“

Where do you see the materials chemistry field in the next 10 years?

“I see materials chemistry evolving to embrace the opportunity of providing designer materials with custom electronic, thermal, optical, and mechanical properties.”

In your opinion, how could members of the community be more involved with the journal?

“Members of the materials chemistry community can be more involved with the journal through engaging in the publication discourse.”

Some of Shannon Yee’s latest research can be found here:

Effects of film thickness on electrochemical properties of nanoscale polyethylenedioxythiophene (PEDOT) thin films grown by oxidative molecular layer deposition (oMLD)

Katrina G. Brathwaite, Quinton K. Wyatt, Amalie Atassi, Shawn A. Gregory, Eric Throm, David Stalla, Shannon K. Yee, Mark D. Losego and Matthias J. Young
Nanoscale
, 2023,15, 6187-6200. DOI: 10.1039/D3NR00708A

 

Inducing planarity in redox-active conjugated polymers with solubilizing 3,6-dialkoxy-thieno[3,2-b]thiophenes (DOTTs) for redox and solid-state conductivity applications

Sandra L. Pittelli, Shawn A. Gregory, James F. Ponder, Jr, Shannon K. Yee and John R. Reynolds
J. Mater. Chem. C
, 2020,8, 7463-7475. DOI: 10.1039/D0TC00914H

 

Electron transport in a sequentially doped naphthalene diimide polymer

Khaled Al Kurdi, Shawn A. Gregory, Samik Jhulki, Maxwell Conte, Stephen Barlow, Shannon K. Yee and Seth R. Marder
Mater. Adv.
, 2020,1, 1829-1834. DOI: 10.1039/D0MA00406E

 

David Mecerreyes, Advisory Board Member 

University of the Basque Country, Spain

Graduated from the University of the Basque Country in 1994. He obtained the Ph.D. degree in Polymer Chemistry under de supervision of Dr. Robert Jèrôme in 1998 from University of Liege (Belgium). He carried out a post-doctoral at IBM Almaden Research Center and Stanford University (USA) working in the team of Dr. James L. Hedrick and Prof. Craig Hawker. In 2001 he joined CIDETEC where he was in charge of the Nanomaterials Unit. In January 2011, he got an Ikerbasque Research Professorship at POLYMAT/University of the Basque Country (UPV/EHU).

Prof. David Mecerreyes is a creative polymer chemist and has pioneered important topics in polymer and materials science such as ring-opening polymerization (PhD times), polymer brushes and single-chain nanoparticles (post-doc times), porous PBI proton conducting membranes, poly(ionic liquid)s and polymer electrolytes for batteries (last years). He has published more than 300 scientific articles in polymer, chemistry and materials journals and delivered more than 70 invited lectures around the world.

 

What do you like most about being on the Advisory Board for Materials Horizons?

“To me it is a honor and very prestigious to be part of the Advisory Board. I love the opportunity to directly participate in the development of the journal and contribute with our best articles coming from our group as well as to have a close view of the current advances in materials science and applications.”

What do you think of Materials Horizons as a place to publish impactful materials chemistry research?

I believe Materials Horizons is “the place” to publish impactful and breakthrough articles. In particular, articles where new materials chemistry directions and concepts are demonstrated.”

Where do you see the materials chemistry field in the next 10 years?

“I see that research in polymers and materials chemistry will be more and more important in the next 10 years. The research interests will  be related to the societal needs in areas such as health, energy and environment. I see an evolution of the current research topics in circular economy, sustainability of materials. I believe that the performance and the applications of the materials will be even more important factor in the future.“

In your opinion, how could members of the community be more involved with the journal?

“It is a simple but difficult question to answer. I guess that the members of the community should see the journal present and close to them and in an interactive way through congress participation as well as the social media.”

Could you provide a summary of your most recent Materials Horizons publication?

“We recently published an article entitled Direct ink writing of PEDOT eutectogels as substrate-free dry electrodes for electromyography DOI: 10.1039/D3MH00310H. Here we showed the development of mixed ionic electronic conductive materials based on Deep eutectic solvents DES and poly(3,4 ethylenedioxythiophene)/poly(styrenesulfonate) (PEDOT:PSS). We called this new materials eutectogels which are biocompatible, cost-effective, easy to make and show high ionic and electronic conductivity values.
Due to the rheological properties of these eutectogels we showed the direct printing of electrodes for electrophysiology, called eutectic-tattoos (Eutecta2). The obtained Eutecta2 electrodes were self-standing, stable after drying, and reusable, as well as 3D printable in custom shapes.”

 

Check out some of David Mecerreyes’ latest research here:

 

Direct ink writing of PEDOT eutectogels as substrate-free dry electrodes for electromyography

Ana Aguzin, Antonio Dominguez-Alfaro, Miryam Criado-Gonzalez, Santiago Velasco-Bosom, Matías L. Picchio, Nerea Casado, Eleni Mitoudi-Vagourdi, Roque J. Minari, George G. Malliaras and David Mecerreyes
Mater. Horiz.
, 2023,10, 2516-2524. DOI: 10.1039/D3MH00310H

 

Dual redox-active porous polyimides as high performance and versatile electrode material for next-generation batteries

Nicolas Goujon, Marianne Lahnsteiner, Daniel A. Cerrón-Infantes,  Hipassia M. Moura, Daniele Mantione, Miriam M. Unterlass and David Mecerreyes
Mater. Horiz.
, 2023,10, 967-976. DOI: 10.1039/D2MH01335E

 

Self-healable dynamic poly(urea-urethane) gel electrolyte for lithium batteries

Fermin Elizalde, Julia Amici, Sabrina Trano,  Giulia Vozzolo, Robert Aguirresarobe, Daniele Versaci, Silvia Bodoardo, David Mecerreyes, Haritz Sardon and Federico Bella

J.Mater. Chem. A, 2022,10, 12588-12596. DOI: 10.1039/D2TA02239G

 

We hope you have enjoyed meeting our Advisory board members. 

 

Or to read more of our community spotlight blog, return to the home page here

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Materials Horizons 10th Anniversary ‘Community Spotlight’. Meet more of our esteemed Advisory Board Members!

Introducing the Materials Horizons Advisory Board – Part 2.

This year we are pleased to celebrate the tenth anniversary of Materials Horizons. We are so grateful to our fantastic community of authors, reviewers, Board members and readers and wanted to showcase just some of them in a series of ‘Community Spotlight’ blog articles.

In this ‘Community Spotlight’, we feature some more of the Advisory Board members who have supported Materials Horizons over the years. We have asked them what they like most about being on the journal’s Advisory Boards, about their recent publications and about their own insights into the future of materials chemistry. Check out their interview responses and related articles below.

Christopher Bettinger, Advisory Board Member

Carnegie Mellon University, USA

Photograph of Christopher Bettinger

Christopher Bettinger is a Professor at Carnegie Mellon University in the Departments of Materials Science and Engineering and Biomedical Engineering. He directs the laboratory for Biomaterials-based Microsystems and Electronics at CMU, which designs materials and interfaces that integrate medical devices with the human body. Prof. Bettinger is also a co-inventor on several patents and Co-Founder and CTO of Ancure, an early-stage medical device incubator. Prof. Bettinger received an S.B. in Chemical Engineering, an M.Eng. in Biomedical Engineering, and a Ph.D. in Materials Science and Engineering as a Charles Stark Draper Fellow, all from the Massachusetts Institute of Technology.  He completed his post-doctoral fellowship at Stanford University in the Department of Chemical Engineering as an NIH Ruth Kirschstein Fellow.

What do you think of Materials Horizons as a place to publish impactful materials chemistry research?

 ‘Materials Horizons is a high-impact journal that features multidisciplinary research. The breadth of the articles is impressive and attracts a broad audience that is interested in innovative research. As an author, I am particularly impressed by the efficiency of the review process, and which translates to the ability to publish rapidly. Materials Horizons therefore is a great place to publish for quick moving fields.’

Where do you see the materials chemistry field in the next 10 years?

‘Materials chemistry underpins most of the advanced technologies of our generation ranging from RNA vaccines to clean energy to space travel. The scope and scale of the impact of the materials chemistry field is stunning. I’m personally interested in understanding how biomedical materials can help scientists and engineers interrogate and modulate organ systems such as the gastrointestinal tract.’

 

You can read Christopher’s latest articles in Journal of Materials Chemistry B here:

Poisson–Nernst–Planck framework for modelling ionic strain and temperature sensors.

Gaurav Balakrishnan, Jiwoo Song, Aditya S. Khair and Christopher J. Bettinger.

J.Mater. Chem. B, 2023,11, 5544-5551. DOI: 10.1039/D2TB02819K

 

Electrochemical-mediated gelation of catechol-bearing hydrogels based on multimodal crosslinking.

Chenchen Mou, Faisal Ali, Avishi Malaviya and Christopher J. Bettinger.

J.Mater. Chem. B, 2019,7, 1690-1696. DOI: 10.1039/C8TB02854K

 

 

Ramanathan Vaidhyanathan, Advisory Board Member

IISER Pune, India

Photograph of Ramanathan Vaidhyanathan

Dr. R. Vaidhyanathan obtained his Ph.D. from the Jawaharlal Nehru Centre for Advanced Scientific Research under Prof. C. N. R. Rao and Prof. S. Natarajan. He worked as a postdoc with Prof. M. J. Rosseinsky at the University of Liverpool and as a research associate with Prof. George Shimizu at the University of Calgary. He started his independent research career as an assistant professor in IISER Pune in 2012. Currently, he is a Professor at IISER Pune. His research focuses on developing Advanced Porous Materials such as metal-organic frameworks (MOFs) and covalent-organic frameworks (COFs) and their nanocomposites for environmental and energy applications. He has published over 102 papers and has 11 patents filed from IISER Pune. He has been rewarded with several honours, including the Fellowship of Royal Society of Chemistry (2022), C.N.R. Rao Award. National Prize for research in Physical and Inorganic Chemistry (2021), Materials Research Society of India Medal (2019), Chemical Research Society of India Medal (2018), IUSSTF funding won jointly with Temple University (Chief Co-PI, 2018), Sakurai Science Program (SSP), Osaka University, Japan (2016), Best Emerging Young Scientist (Chemical Frontiers), Goa, (2017). He serves as an Associate Editor in Chemistry of Materials and as an Editorial Board Member of ACS Materials Letters and Nature Scientific Reports. He is the Advisory Board Member of Nanoscale Horizons and Materials Horizons.

What do you like most about being on the Advisory Board for Materials Horizons?

‘Excellent opportunity. Such a fantastic journal covering a whole spectrum of materials. Being an Advisory Board Member gives me the commitment and responsibility to bring visibility and promote the latest happenings and upcoming young researchers in porous materials.’

What do you think of Materials Horizons as a place to publish impactful materials chemistry research?

‘Again, among the top materials journals, the editorial and marketing teams are engaged in promoting the published articles. This is very critical for many researchers who work on topical areas. Importantly, the “concept note” for every article published in Materials Horizons provides a plain language note of the work, making it reachable to a wide scientific audience and opening collaboration opportunities.’

Where do you see the materials chemistry field in the next 10 years?

Nothing but top. It has become such a fantastic interdisciplinary research area. Nowadays, very little work happens within individual groups. The rapid development of technology and the excellent government support for research from many developing and almost-developed countries has expanded the capability of individual groups. Now many active groups are not ready to settle for only fundamental investigations; there is a vibrant, collaborative environment between groups leading to research in materials that is more targeted and holistic. Given this, I see Materials Chemistry inciting every field of Science and Technology.’

In your opinion, how could members of the community be more involved with the journal?

‘I see the materials journals of RSC being extremely focused and active in communicating with the members and encouraging them to contribute to specialized topics. And their attempt to invite senior researchers to nominate, support and endorse high-flying young researchers is simply superb. Keep going.’

Could you provide a summary of your most recent Materials Horizons publication?

‘I would not call it the most recent, but we have published an excellent work on flexible MOFs. We employed the concept of “Hard Soft Gate Control (HSGC)” which involves tuning the openness of the MOF framework by exploiting the coordination flexibility between the metal and the basic ligand by tuning the metal’s hardness. It resulted from an intense collaboration between Woo and co-workers from U Ottawa and us.’

 

Discover some of Ramanathan’s work across our Horizons journals here:

Imparting gas selective and pressure dependent porosity into a non-porous solid via coordination flexibility.

Shyamapada Nandi, Phil De Luna, Rahul Maity, Debanjan Chakraborty, Thomas Daff, Thomas Burns, Tom K. Woo and Ramanathan Vaidhyanathan.

Mater. Horiz., 2019,6, 1883-1891. DOI: 10.1039/c9mh00133f

 

Hydroxide ion-conducting viologen–bakelite organic frameworks for flexible solid-state zinc–air battery applications.

Deepak Rase, Rajith Illathvalappil, Himan Dev Singh, Pragalbh Shekhar, Liya S Leo, Debanjan Chakraborty, Sattwick Haldar, Ankita Shelke, Thalasseril G. Ajithkumarc and Ramanathan Vaidhyanathan.

Nanoscale Horiz., 2023,8, 224-234. DOI: 10.1039/d2nh00455k

 

Moyuan Cao, Advisory Board Member

Nankai University, China.

Photograph of Moyuan Cao

 

Dr. Moyuan Cao is currently a professor and principal investigator at school of materials science and engineering, Nankai University, China. He received his B. Eng. Degree (2010) and M. Sc. Degree (2013) in Macromolecular Science and Engineering from Zhejiang University, China. In 2016, he received Ph. D. Degree in materials sciences under the supervision of Prof. Lei Jiang at Beihang University and Chinese Academy of Sciences. He is also a member of Haihe Laboratory of Sustainable Chemical Transformations (Tianjin, China) and Smart Sensing Interdisciplinary Science Center of Nankai University. He has published over 70 peer-review papers in Matter, Adv. Mater., Mater. Horiz., Adv. Funct. Mater., etc. His citation number is over 4600 times with an H-index of 36. He serves as Editorial member of Frontiers in Chemistry, Polymers, Chinese Chemical Letters, Transactions of Tianjin University and Advisory board member of Materials Horizons. His present scientific interests are focused on the design and the applications of bio-inspired asymmetrical interfaces for fluid manipulation, including (1) Self-propelled fluid delivery on open interfaces; (2) Bubble manipulation on hydrophobic slippery surfaces; (3) Integrated systems with fluid collecting ability.

 

Where do you see the materials chemistry field in the next 10 years?

‘As for the research field in next 10 years, human beings should overcome the shortage of resources including water, energy, food, etc. For example, the drinking water scarcity has influenced the millions of people in undeveloped country. In such region, the complicated equipment such as membrane systems might not be suitable due to the high cost. Therefore, the future research should focus on the drinking water production with more convenient and efficient way. Learning from nature can give us numerous ideas. Why can plants efficiently uptake clear water from mud? How did plant capture and reserve water in arid region? How can we take those inspirations to our design? If we can totally understand the biologic logic of water uptake, I believe that we can further improve the current systems for water production. What I can see is that the combination between the hierarchical structure of plants and the solar absorbing system should be a possible answer to biologic water uptake. So, in the next 10 years, the solar-assisted water production and liquid manipulation can be an important interdisciplinary topic that relating to water, energy, agriculture and integrated functional devices.’

Could you provide a summary of your most recent Materials Horizons publication?

‘In our recent publication in Materials Horizons (2022, 9, 1888), we have fully revealed the superior floatability of Pistia stratiotes that is a kind of aquatic plants. Compared with the traditional lotus leaf, Pistia stratiotes has improved floatability on the basis of its penetrable superhydrophobic/hydrophilic Janus structure. Even when pushed into water, Pistia can spontaneously return to its original orientation on the water surface, and the on-surface leftover water can be actively drained through its liquid channel. Inspired by this natural design, we have fabricated an interfacial tumbler with similar structure, showing an improved floatability. In addition, we have also demonstrated a micro-light-buoy based on this bioinspired floater, which can meet the requirement of floatable microdevice and on-sea signaling. In this publication, we have updated the understand of the floatability of Pistia, and then design a bioinspired structure to optimize the micro-floater. In future, the on-water or on-sea micro-devices should be a promising platform for detection, desalination, imaging, etc. Therefore, our design can also provide a method to stabilize the functional devices at air/water interface. We are interested in discovering the nature’s secrets and learning from nature’s way. ‘

 

Check out Muyuan’s latest Materials Horizons articles here:

Designing a slippery/superaerophobic hierarchical open channel for reliable and versatile underwater gas delivery.

Xinsheng Wang, Haoyu Bai, Zhe Li,  Yaru Tian,  Tianhong Zhaoa and Moyuan Cao.

Mater. Horiz., 2023,10, 3351-3359. DOI: 10.1039/D3MH00898C

 

An interfacial floating tumbler with a penetrable structure and Janus wettability inspired by Pistia stratiotes.

Yifan Yang, Haoyu Bai, Muqian Li, Zhe Li, Xinsheng Wang, Pengwei Wang and Moyuan Cao.

Mater. Horiz., 2022,9, 1888-1895. DOI: 10.1039/D2MH00361A

 

Vivian Wing Wah Yam, Advisory Board Member

The University of Hong Kong, China

Photograph of Vivian Wing Wah Yam

 

Vivian W.-W. Yam obtained both her BSc (Hons) and PhD from The University of Hong Kong, and is currently the Philip Wong Wilson Wong Professor in Chemistry and Energy and Chair Professor of Chemistry at The University of Hong Kong. She was elected to Member of Chinese Academy of Sciences, International Member (Foreign Associate) of US National Academy of Sciences, Foreign Member of Academia Europaea, Fellow of TWAS and Founding Member of Hong Kong Academy of Sciences. She was Laureate of the 2011 L’Oréal-UNESCO For Women in Science Award. She has received a number of awards, including the Josef Michl ACS Award in Photochemistry, RSC Centenary Medal, RSC Ludwig Mond Award, Porter Medal, Bailar Medal, I-APS Presidential Award, FACS Foundation Lectureship Award, APA Masuhara Lectureship Award, JPA Honda-Fujishima Lectureship Award, JPA Eikohsha Award, JSCC International Award, State Natural Science Award, CCS-China Petroleum & Chemical Corporation (Sinopec) Chemistry Contribution Prize, CCS Huang Yao-Zeng Organometallic Chemistry Award, etc. Her research interests include inorganic/organometallic chemistry, supramolecular chemistry and controlled assembly of nanostructures, photophysics and photochemistry, and metal-based molecular and nano-assembled functional materials for sensing, organic optoelectronics and energy research.

What do you like most about being on the Advisory Board for Materials Horizons?

‘Being on the Advisory Board for Materials Horizons, I am pleased that we are involved in a lot of decision-making. It is running on a highly transparent and open system.  We are given opportunities to vote on different things, such as the outstanding papers awards, the top covers, and to provide nominations and suggestions, or to be involved in Horizons Symposia etc. We are also provided with the most up-to-date information on the developments of Materials Horizons.’

Could you provide a summary of your most recent Materials Horizons publication?

‘The team of the Department of Chemistry in The University of Hong Kong showcased for the first time a new class of robust gold(III) complexes with promising operational half-lifetime of more than 200,000 hours. The findings have been published in the special issue of Materials Horizons in honour of Professor Seth Marder (Mater. Horiz., 2022, 9, 281–293). Our most recent Materials Horizons publication (Mater. Horiz., 2022, 9, 281) reported the design and synthesis of yellow- to red-emitting gold(III) complexes and their applications in operationally stable organic light-emitting devices (OLEDs).

We showed that gold(III) complexes can display unprecedented room-temperature phosphorescence both in solution and in the solid state in 1993, and have since designed luminescent gold(III) systems and reported for the first time the use of phosphorescent gold(III) emitters in OLEDs in 2005. Through systematic spectroscopic and photophysical studies, together with rational molecular design and optimization of the molecular structure, their performances have since been increasingly improved towards practical device performance. Through the delicate balance of the radical anion stability and the resonance structures of the N-heterocyclic moieties introduced onto the cyclometalating ligand, a proper choice of the isomers is found to be the determining factor for the realization of high operational stability in these gold(III) complexes. The isomeric effect and extended π-conjugation of the N-heterocycles are shown to remarkably perturb the photophysical, electrochemical and electroluminescence properties of these gold(III) complexes. This has led to high device operational stabilities with long half-lifetime reaching 206,800 hours and maximum external quantum efficiencies of 14.5% in the vacuum-deposited devices, representing the longest operational half-lifetime as well as the highest EQE among the orange-emitting gold(III)-based devices reported so far at that time. This work has provided mechanistic insights and would have significant and important impact on the research and development of luminescent gold(III) complexes.’

 

Read Vivian W.W’ s latest articles across the Materials journals here:

Design and synthesis of yellow- to red-emitting gold(iii) complexes containing isomeric thienopyridine and thienoquinoline moieties and their applications in operationally stable organic light-emitting devices.

Lok-Kwan Li, Cathay Chai Au-Yeung, Man-Chung Tang, Shiu-Lun Lai, Wai-Lung Cheung, Maggie Ng, Mei-Yee Chan and Vivian Wing-Wah Yam.

Mater. Horiz., 2022,9, 281-293. DOI:10.1039/d1mh00821h

 

Synthesis and photoswitchable amphiphilicity and self-assembly properties of photochromic spiropyran derivatives.

Yiwei Zhang, Maggie Ng, Eugene Yau-Hin Hong, Alan Kwun-Wa Chan, Nathan Man-Wai Wu, Michael Ho-Yeung Chan, Lixin Wu and Vivian Wing-Wah Yam.
J. Mater. Chem. C
, 2020,8, 13676-13685. DOI: 10.1039/d0tc03301d

 

Darren Lipomi, Advisory Board Member

UC San Diego, USA

Photograph of Darren Lipomi

 

Darren J. Lipomi is a Professor of nanoengineering, chemical engineering, and materials Science at UC San Diego. He is also the Associate Dean for Students and the Faculty Director of the IDEA Engineering Student Center at the Jacobs School of Engineering at UCSD. Lipomi earned his bachelor’s degree in chemistry with a minor in physics as a Beckman Scholar at Boston University in 2005, and his PhD in chemistry at Harvard University in 2010, with Prof. George M. Whitesides. From 2010 – 2012, he was an Intelligence Community Postdoctoral Fellow in the laboratory of Prof. Zhenan Bao at Stanford University, and arrived at UCSD in 2012. His research interests include the chemistry of organic materials, especially the mechanical properties of semiconducting polymers for flexible solar cells, biomechanical sensors, and phenomena that occur at the intersection of materials chemistry with human perception and cognition. He is the recipient of the AFOSR Young Investigator award, the NIH Director’s New Innovator Award, the Presidential Early Career Award for Scientists and Engineers (PECASE), and the NSF BRITE-Pivot award. He hosts a podcast, “Molecular Podcasting with Darren Lipomi” and associated YouTube channel (Darren_Lipomi) that together have >15,000 subscribers. These venues serve as a resource to students, postdocs, and other early-career researchers.

What do you like most about being on the Advisory Board for Materials Horizons?

‘Serving on the Advisory Board for Materials Horizons has been a true privilege. The multifaceted nature of this role, which allows me to engage with authors, editors, and editorial staff, is what I find most gratifying. I have been pleased to have the opportunity to shape the direction of the journal and influence the discourse within the scientific community. I have especially enjoyed interacting with my fellow board members, who come from a broad swath of the materials science community.’

Where do you see the materials chemistry field in the next 10 years?

‘The next decade holds great promise for materials science, in particular increased interdisciplinary in an already interdisciplinary field. We’ll likely witness the emergence of smarter materials for human interaction. That is, true bioinspiration; materials with combined sensor-actuator functionality and neuromorphic designs. I am especially interested in the intersection of materials science with human perception and psychology. The advent of more sustainable materials and improved methods for recycling will play a significant role in tackling environmental challenges. Furthermore, with advancements in computation and machine learning, materials design will become more predictive, accelerating the discovery of new materials with tailored properties.

 

You can find Darren’s latest Materials Horizons and Nanoscale articles below:

Human ability to discriminate surface chemistry by touch.

Cody W. Carpenter, Charles Dhong, Nicholas B. Root, Daniel Rodriquez, Emily E. Abdo, Kyle Skelil, Mohammad A. Alkhadra, Julian Ramírez, Vilayanur S. Ramachandran and Darren J. Lipomi.
Mater. Horiz.
, 2018,5, 70-77. DOI: 10.1039/c7mh00800g

 

Exploring the limits of sensitivity for strain gauges of graphene and hexagonal boron nitride decorated with metallic nanoislands.

Julian Ramírez, Armando D. Urbina, Andrew T. Kleinschmidt, Mickey Finn, III, Samuel J. Edmunds, Guillermo L. Esparzaa and Darren J. Lipomi.

Nanoscale, 2020,12, 11209-11221. DOI: 10.1039/d0nr02270e

 

Luisa Torsi, Advisory Board Member

University of Bari, Italy

Photograph of Luisa Torsi

Luisa Torsi is a professor of analytical chemistry at the University of Bari and president of the Regional Center on Single-Molecule Digital Assay. She received her laurea degree in Physics and the PhD in Chemistry from UNIBA and was post-doctoral fellow at Bell Labs in USA.
In 2010 Torsi was awarded the Merck prize and in 2019, she received the Distinguished Women Award from the International Union of Pure and Applied Chemistry (IUPAC). She was also president of the European Material Research Society. Torsi is the winner of the Wilhelm Exner Medal 2021, a prize awarded since 1921 by the Austrian Industrial Association and the Premio del Presidente della Repubblica dell’Accademia dei Lincei. She is also a member of this prestigious Accademia since 2023
Torsi has authored ca. 240 papers, published also in Science and Nature journals. Her works collected mare then 16.400 Google Scholar citations resulting in an h-index of 63. Gathered research funding for over 40 M€, comprises several national and European projects, mostly coordinated by her. Torsi is committed to the role-modeling for younger women scientists. In a recent campaign by Fondazione Bracco, she was featured in a story of TOPOLINO (Italian series of Disney comics), as “Louise Torduck”, a successful female scientist of the Calisota valley.

Where do you see the materials chemistry field in the next 10 years? 

‘I believe that a forthcoming challenge in the field will revolve around delving into the molecular-level investigation and comprehension of the electrostatic characteristics of proteins, especially when they are constrained to a surface or when they come together to create a biolayer.’

Could you provide a summary of your most recent Materials Horizons publication?

‘It a reflection on the comparison between electronic and electrochemical biosensors. It starts from the observation that several three-terminal organic bioelectronic structures have been proposed for diverse biosensing applications, with a focus on organic field-effect transistors in an electrolyte as popular choices for detecting proteins and genomic analytes. These devices gain selectivity by immobilizing bio-recognition elements and are cost-effective for point-of-care medical uses. However, they don’t consistently outperform traditional electrochemical sensors. The idea is to provide the community with a comparative analysis of potentiometric and amperometric electrochemical sensors against organic bioelectronic transistors, including an examination of their sensing mechanisms and amplification factors. It also discusses the functional relationship between sensor responses and analyte concentration for accurate quantification.’

 

Here are some of Luisa’s latest articles from across the Materials journals:

About the amplification factors in organic bioelectronic sensors.

Eleonora Macchia, Rosaria Anna Picca, Kyriaki Manoli, Cinzia Di Franco, Davide Blasi, Lucia Sarcina, Nicoletta Ditaranto, Nicola Cioffi, Ronald Österbacka, Gaetano Scamarcio, Fabrizio Torricelli and Luisa Torsi.

Mater. Horiz., 2020,7, 999-1013. DOI: 10.1039/c9mh01544b

 

A stable physisorbed layer of packed capture antibodies for high-performance sensing applications.

Lucia Sarcina, Cecilia Scandurra, Cinzia Di Franco, Mariapia Caputo, Michele Catacchio, Paolo Bollella, Gaetano Scamarcio, Eleonora Macchia and Luisa Torsi.
J. Mater. Chem. C
, 2023,11, 9093-9106. DOI: 10.1039/d3tc01123b

 

We hope you have enjoyed meeting our Advisory board members.  Next month we take a look at some more of our featured Materials Horizons Emerging Investigators.

 

Or to read more of our community spotlight blog, return to the home page here

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Materials Horizons 10th Anniversary ‘Community Spotlight’ – Meeting our Advisory board.

Introducing the Materials Horizons Advisory board!

This year we are pleased to celebrate the tenth anniversary of Materials Horizons. We are so grateful to our fantastic community of authors, reviewers, Board members and readers and wanted to showcase just some of them in a series of ‘Community Spotlight’ blog articles.

In our first ‘Community Spotlight’, we feature some of the Advisory Board members who have supported Materials Horizons over the years. We have asked them what they like most about being on the journal’s Advisory Boards, about their recent publications and about their own insights into the future of materials chemistry. Check out their interview responses and related articles below.

 

Aron Walsh, Advisory Board member.

Imperial Collage London, UK.

Photo of Aron Walsh

Aron Walsh is a Full Professor and Fellow of the Royal Society of Chemistry (RSC) in the Department of Materials. He leads the Materials Design Group at the Thomas Young Centre in London and holds a Distinguished Visiting Professorship at Ewha Womans University in Seoul.

Aron was awarded his PhD in Chemistry from Trinity College Dublin. He then worked for the US Department of Energy at the National Renewable Energy Laboratory, followed by a Marie Curie Fellowship hosted by University College London, and a Royal Society University Research Fellowship held at the University of Bath.

His research involves cutting-edge materials theory and simulation applied to problems across solid-state chemistry and physics, including materials for solar cells and fuels, batteries, thermoelectrics, and solid-state lighting. He has expertise in the theory of semiconductors and dielectrics, and is developing innovative solutions for materials data, informatics and design.

Where do you see the materials chemistry field in the next 10 years?

“In the next 10 years, materials chemistry will be influenced by the increasing significance of data. Data will play a dual role, enhancing research reproducibility and expediting scientific breakthroughs. By adopting data-driven techniques, researchers can leverage large structure-property datasets and advanced analytics to gain deeper insights, optimise materials, and accelerate the pace of discovery. We will need to foster community consensus in terms of formats, repositories, and ontologies, but in the end, this will yield substantial long-term benefits.”

Could you provide a summary of your most recent Materials Horizons publication?

“I am captivated by the influence of temperature on the structures and properties of solids. While traditional approaches excel in modelling the behaviour of dense inorganic crystals, they struggle to scale up for the new generation of flexible metal-organic or covalent-organic frameworks. Here, Ju Huang showcased the effectiveness of machine learning in addressing this challenge. Her study revealed how the local structure of layered frameworks dynamically distorts over time, leading to the emergence of average features observed in experimental probes. The development of machine-learned forcefields to describe crystal dynamics is helping to bridge the length and timescale gaps between modelling and measurements in materials chemistry.”

 

You can find this article by Ju Huang, Aron Walsh et al. here:

‘Room-temperature stacking disorder in layered covalent-organic frameworks from machine-learning force fields’

Ju Huang, Seung-Jae Shin, Kasper Tolborg, Alex M. Ganose, Gabriel Krenzer and Aron Walsh.
Mater. Horiz.
, 2023, Advance Article. DOI: 10.1039/D3MH00314K

https://pubs.rsc.org/en/content/articlelanding/2023/MH/D3MH00314K

 

 

 

 

Mengye Wang, Advisory Board member.

Sun Yat-Sen University, China

Photo of Mengye Wang

 

Dr Mengye Wang obtained her PhD from the Department of Chemistry, Xiamen University, Fujian, China, (2010 – 2015) one year and a half of which was spent as a visiting PhD student at Georgia Institute of Technology, Atlanta. She completed her post-doctoral fellowship in Applied Physics at The Hong Kong Polytechnic University (2018) and was shortly appointed her current role as Associate Professor at the School of Materials, Sun Yat-sen University. Dr Wang’s interests lie within the field of photocatalytic, electrocatalytic and piezocatalytic H2 evolution, CO2 reduction, Nfixation and H2O2 generation. From 2015 Dr Wang has been an active community board member for Materials Horizons and later in 2019 accepted an advisory board role for Materials Advances and Journal of Materials Chemistry A.

What do you like most about being on the Advisory Board for Materials Horizons?

“Having more opportunity to reach out to outstanding scholars.”

 

In your opinion, how could the journal engage more with members of the community?

“It would be great if the journal could hold offline meetings to give board members the opportunity to get to know each other more. “

 

You can read Mengye Wang’s latest article in Journal of Materials Chemistry A here:

‘Highly selective semiconductor photocatalysis for CO2 reduction.’

Shan Yao, Jiaqing He, Feng Gao, Haowei Wang, Jiahui Lin, Yang Bai, Jingyun Fang, Feng Zhu, Feng Huang and Mengye Wang.
J. Mater. Chem. A
, 2023,11, 12539-12558. DOI: 10.1039/D2TA09234D

https://pubs.rsc.org/en/content/articlelanding/2023/ta/d2ta09234d

 

 

Jurriaan Huskens, Advisory Board member.

University of Twente, Netherlands.

Photo of Jurriaan Huskens

 

Jurriaan Huskens (1968) obtained his PhD (1994) at the Delft University of Technology with Herman van Bekkum. After postdoctoral stays with Dean Sherry and Manfred Reetz, he became an assistant professor with David Reinhoudt at the University of Twente in 1998, and a full professor of the Molecular Nanofabrication group in 2005. He received the Unilever Research Award (1990), a Marie Curie fellowship (1997), the Gold Medal 2007 of the Royal Netherlands Chemical Society, and a fellowship from the Institute of Advanced Study, Durham University, UK (2019). He is a (co)author of about 400 refereed research papers, five patents, and a book on Multivalency.

Jurriaan’s present research interests include supramolecular chemistry at interfaces, supramolecular materials, multivalency, nanofabrication, and green chemistry.

Where do you see the materials chemistry field in the next 10 years?

“In the next 10 years we will see a further integration of materials chemistry with biology. This integration deals with the design and implementation of materials in biological environments as well as the merging of biological concepts and components in the assembly of new materials.”

Could you provide a summary of your most recent Materials Horizons publication?

“Vesicles provide an immense source of inspiration. They use lipids, the natural components of cell membranes, to form a shell that provides compartmentalization, a contact point for interactions with the outside world and a barrier to control the transfer of signals and molecules. Vesicles can be used to build artificial cells (Y. Lu, G. Allegri, J Huskens; 2022). These artificial cells can span the whole range from fully de novo designed materials to systems that are hosting complex biological machineries. For me personally, the molecular properties of cell membranes, such as dedicated chemical functionalization and control over properties of binding and mobility, remain fascinating and provide fantastic opportunities for future work.”

 

You can find this article by Lu, Allegri and Huskens below:

‘Vesicle-based artificial cells: materials, construction methods and application.’

Yao Lu, Giulia Allegri and Jurriaan Huskens
Mater. Horiz.
, 2022,9, 892-907. DOI10.1039/D1MH01431E

https://pubs.rsc.org/en/content/articlelanding/2022/mh/d1mh01431e

 

C.N.R Rao, Advisory Board member.

Jawaharlal Nehru Centre for Advanced Scientific Research, India.

Photo of C.N.R Rao

C.N.R. Rao has been working in the area of chemistry of materials for more than 65 years.  He is the author of over 1790 research papers in this area and has authored and edited 56 books.  He started working on the chemistry of nanomaterials well before nanoscience became a popular area of investigation.  In the late 1980’s and early 1990’s, he started investigating the electronic structures of small metal nanocrystals.  During that period, he carried out studies of fullerenes as well.  Since then, he has carried out investigations of a variety of nanomaterials including nanocrystals, nanowires, and nanotubes and nanofilms.  His contributions relate to new synthetic methods, new materials, properties, and phenomena.  Thus, he has not only discovered new methods of synthesizing and purifying carbon nanotubes, but also a simple way to separate metallic and semiconducting carbon nanotubes.  His contributions to the synthesis and properties of graphene are noteworthy, the work on inorganic nanotubes and graphene analogues of inorganic layered materials being especially significant. Very recently, he has successfully carried out artificial photosynthesis and hydrogen generation using nanoparticles and nanosheets as catalysts.

Some industries/start-ups have made use of C.N.R. Rao’s work. (e.g., nanotube synthesis and purification, supercapacitor technology and metal-semiconductor CNT separation).

What do you think of Materials Horizons as a place to publish impactful materials chemistry research?

“Materials Horizon summarizes the very best in materials science.”

 

Where do you see the materials chemistry field in the next 10 years?

 “I see a focus in the development of 3D Energy and Climate.”

 

You can read C.N.R Rao’s latest insightful perspective article on water splitting here:

‘Chemically functionalized phosphorenes and their use in the water splitting reaction.’

Pratap Vishnoi, Aditi Saraswat and C. N. R. Rao.

J. Mater. Chem. A, 2022,10, 19534-19551. DOI: 10.1039/D2TA01932A

https://pubs.rsc.org/en/content/articlelanding/2022/ta/d2ta01932a

 

 

Ye Zhou, Advisory Board member.

Shenzhen University, China

Photo of Ye Zhou

Prof. Ye Zhou is a group leader in the Institute for Advanced Study, Shenzhen University, China. He was elected as Fellow of the Royal Society of Chemistry (FRSC) in 2021, ​Fellow of the Institute of Physics (FInstP) in 2022, and Fellow of the Institution of Engineering and Technology (FIET) in 2022. He received his B.S. from Nanjing University (2008), M.S. from Hong Kong University of Science and Technology (2009) and Ph.D. from City University of Hong Kong (2013). He worked as postdoctoral fellow and senior research fellow in City University of Hong Kong (2013-2015) and joined Shenzhen University in 2015. His research interests include nanostructured materials and nano-scale devices for technological applications, such as neuromorphic electronics, logic circuits, memory, photonics, and sensors.

 

What do you like most about being on the Advisory Board for Materials Horizons?

“I can study from other members and share my knowledge and insights as an advisory board member. It offers me an excellent opportunity for networking and establishing valuable professional connections in materials research society.”

 

What do you think of Materials Horizons as a place to publish impactful materials chemistry research?

“In my opinion, Materials Horizons is a prestigious and leading journal in materials chemistry research. There is a great editorial team to help the authors and papers published in Materials Horizons can receive widespread attention.”

 

You can read some of Ye Zhou’s most recent research, in the Journal of Materials Chemistry C, here:

‘Enhancing the stability of the polymeric Lewis-base-assisted dual-phase 3D CsPbBr3–Cs4PbBr6 perovskite by molecular engineering and self-passivation.’

Fang-Cheng Liang, Zhen-Li Yan, Dhana Lakshmi Busipalli, Jean-Sebastien Benas, Zhi-Xuan Zhang, Su-Ting Han, Ye Zhou, Jyh-Chiang Jiang and Chi-Ching Kuo.

J. Mater. Chem. C, 2023,11, 307-320. DOI: 10.1039/D2TC03690H

https://pubs.rsc.org/en/content/articlelanding/2023/tc/d2tc03690h

 

 

We sincerely hope you enjoy reading about some of our superb Advisory board members and their latest research.

Keep an eye out for our second edition of the Advisory board Community spotlight!

 

Or to read more of our community spotlight blog, return to the home page here

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