Archive for the ‘Journal of Materials Chemistry B’ Category

Congratulations to Oliver Hagger, poster prize winner at the Materials Chemistry Poster Symposium

Journal of Materials Chemistry A, B and C were delighted to sponsor a poster prize at the Materials Chemistry Poster Symposium on the 29th November. Oliver Hagger from University College London won the prize for his poster titled: Rapid single step multi-metal plasma deposition and regeneration of SERS active substrates.

 

 

 

Oliver Hagger is a PhD researcher in the Department of Chemistry at University College London (UCL) in collaboration with the Defence Science and Technology Laboratory (Dstl). He completed his MChem at the University of Southampton in 2020, which included a secondment at Brown University. His research focuses on utilising atmospheric pressure plasma jets (APPJs) to selectively deposit zero-valent metals on a variety of solid substrates. He has demonstrated the ability to use these metal deposits to analyse atmospheric and liquid-borne analytes through surface-enhanced Raman scattering (SERS). Notably, he has shown how plasma can be employed to selectively ‘clean’ SERS substrates to restore baseline, enabling their reusability and potential for continuous monitoring applications. This innovative work is highlighted in a recent publication in the RSC journal Materials Advances.

 

 

 

 

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Congratulations to our shortlisted candidates for the 2024 Journal of Materials Chemistry Lectureship

Congratulations to our shortlisted candidates for the 2024 Journal of Materials Chemistry Lectureship

The Journal of Materials Chemistry annual lectureship, established in 2010, honours early-career scientists who have made a significant contribution to the field of materials chemistry. We were delighted to have awarded Dr Raphaële Clément (University of California, Santa Barbara, United States) the 2024 Lectureship.

This year we received numerous high-quality nominations from across the world and we wanted to recognise our shortlisted candidates for their contributions to materials chemistry and as emerging leaders in their fields. We have listed the names of the shortlisted candidates below and have put together a collection featuring some of their recent work published in Royal Society of Chemistry journals.

 

Please note that we have only included candidates who have consented to recognition of their name in this way.

Runners-up

Dr Maxx Arguilla (University of California, Irvine, United States)

Dr Phillip Milner (Cornell University, United States)

 

Shortlisted Candidates

Professor Milad Abolhasani (North Carolina State University, United States)

Professor Giuseppe Cavallaro (University of Palermo, Italy)

Professor Jinxing Chen (Soochow University, China)

Professor Juan-Pablo Correa-Baena (Georgia Institute of Technology, United States)

Professor Antoni Forner-Cuenca (Eindhoven University of Technology, The Netherlands)

Dr Chun Ann Huang (Imperial College London, United Kingdom)

Dr Haegyum Kim (Lawrence Berkeley National Laboratory, United States)

Professor Ayala Lampel (Tel Aviv University, Israel)

Professor Eleonora Macchia (University of Bari, Italy)

Dr Libu Manjakkal (Edinburgh Napier University, United Kingdom)

Professor Lukasz Marciniak (Polish Academy of Sciences, Poland)

Dr Beatriz Martín-García (CIC nanoGUNE BRTA, Spain)

Professor Lisa Poulikakos (University of California, San Diego, United States)

Dr Alex Ramadan (University of Sheffield, United Kingdom)

Professor Daniel Tordera (University of Valencia, Spain)

Dr Junpeng Wang (University of Akron, United States)

Professor Weiwei Xie (Michigan State University, United States)

Dr Aleksandr V. Zhukhovitskiy (University of North Carolina at Chapel Hill, United States)

Related posts:

2024 Journal of Materials Chemistry Lectureship winner: Raphaële Clément

2024 Journal of Materials Chemistry Lectureship runners-up: Maxx Arguilla and Phillip Milner

 

 

 

 

 

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2024 Journal of Materials Chemistry Lectureship runners-up: Maxx Arguilla and Phillip Milner

Congratulations to our 2024 Journal of Materials Chemistry Lectureship runners-up, Dr Maxx Arguilla and Dr Phillip Milner

This year, Dr Raphaële Clément from University of California, Santa Barbara, United States was selected as the recipient of the 2024 Journal of Materials Chemistry Lectureship. While we can only award one winner, we wanted to recognise two runners-up for their impressive contributions to materials chemistry and as emerging leaders in the field.

Congratulations to Dr Maxx Arguilla (University of California, Irvine, United States) and Dr Phillip Milner (Cornell University, United States) for being selected as the runners-up of the 2024 Journal of Materials Chemistry Lectureship.

Maxx Q. Arguilla originates from the Philippines. He obtained his B.S. in Chemistry from the University of the Philippines Diliman, cum Laude, in 2011. After a one-year junior instructor position at UPD, he moved to the US and completed his Ph.D. in Inorganic Chemistry from The Ohio State University with Professor Joshua Goldberger in 2017. His dissertation centered on the electronic, optical, and magnetic properties and applications of new two-dimensional solid state lattices in the bulk and at the nanoscale. He then moved to MIT as postdoctoral fellow in Professor Mircea Dinca’s group, where he focused on the growth of one-dimensional van der Waals crystals and the evolution of their physical properties as they transform into ultrathin nanowires and on establishing the fundamental anisotropic physical properties of two-dimensional metal-organic frameworks. In July 2020, Professor Arguilla joined the UC Irvine Department of Chemistry as a tenure-track Assistant Professor. His research is focused on the discovery and chemical understanding of several classes of crystalline solid state materials comprising of sub-nanometer-thick inorganic chains that are held together by weak van der Waals (vdW) or ionic interactions. Such functional 1D and quasi-1D structures could be thought of as freestanding “edge states” or “all-inorganic polymers” and could bridge the underexplored chemical and physical knowledge gap that exists between atomically precise 2D and 0D solids. He is an affiliate faculty of the Department of Chemical and Biomolecular Engineering and the Solutions that Scale Initiative. He also serves as a member of the advisory board of both the Eddleman Quantum Institute and the American Chemical Society’s Chemical & Engineering News. Professor Arguilla is the recipient of the NSF CAREER Award and a finalist (grand winner to be announced) for the 2024 Dream Chemistry Award of the Polish and Czech Academy of Sciences. He was also named as one of Chemical & Engineering News’ Talented Twelve honorees in 2023 and as Matter’s 35 PIs under 35 in Materials Science in 2024.

 

Phillip Milner (Phill) was born a stone’s throw from Ithaca in Towanda, PA and grew up near Rochester, NY. Phill attended Hamilton College near Utica, NY, where his love of synthetic organic chemistry was born while working on radical cyclizations with Prof. Ian Rosenstein.

 

Phill graduated from Hamilton College in 2010 with B.A.s in Chemistry and Mathematics, and went on to pursue his Ph.D. in Chemistry with Prof. Stephen Buchwald at MIT. There, Phill developed Pd-catalyzed fluorination and 11C-cyanation reactions of (hetero)aryl halides. Upon graduating from MIT in 2015, Phill joined the group of Prof. Jeffrey Long at the University of California, Berkeley, where he designed amine-functionalized metal–organic frameworks for CO2 capture.

 

In 2018, Phill joined the Department of Chemistry and Chemical Biology at Cornell University, where his research is focused broadly at the intersection of organic, inorganic, and materials chemistry.  Phill is a member of the Cornell Center for Materials Research (CCMR) and the Cornell Energy Systems Institute (CESI), a Cornell Atkinson Center for Sustainability Faculty Fellow, and a field member in the Department of Chemical and Biomolecular Engineering. Phill was promoted to Associate Professor with tenure in 2024.

 

Phill’s independent awards and honors include: Camille Dreyfus Teacher-Scholar Award (2023), NSF CAREER Award (2021), Robert A. and Donna B. Paul Award for Excellence in Advising (2021), Scialog Fellowship (2020), Department of Energy Early Career Award (2020), and NIH Maximizing Investigator’s Research Award (2020).

 

 

Check out our interview with Maxx and Phillip below:

How did you feel when you were announced as a runner-up of the 2024 Journal of Materials Chemistry Lectureship?

MA: Being a runner-up for the 2024 JMC is a great honor for me as it recognizes our contributions in understanding the chemistry and physics of emergent 1D and quasi-1D solids that approach the sub-nanometer-thick regime that many have thought would be very challenging and almost impossible. It is, personally, special since this recognition is coming from one of the family of materials chemistry journals that I have followed consistently since my formative years. The previous awardees and runners-up are also materials scientists that I look up to and aspire to emulate. Most importantly, this award is a recognition of the tremendous collective effort of the members of my group and our network of collaborators who have dedicated their time, effort, and creativity in exploring an unusual and understudied class of low-dimensional solids.

PM: I feel truly honored to be recognized as a runner-up for this lectureship. Having been trained classically as an organic chemist during my PhD, I came to the world of materials relatively late. Our research group tries to blend the two worlds together in (what we hope are) new and innovative ways. Being recognized with this prestigious lectureship highlights how supportive the materials community has been of our work over the last 6 years.

Which of your Journal of Materials Chemistry publications are you most proud of and why?

MA: I am most proud of my first paper in JMCC (J. Mater. Chem. C, 2017, 5, 11259-11266) where I demonstrated how micro-Raman spectroscopy can be used a probe to study the composition- and stacking-dependence of the Raman-active phonon modes in layered honeycomb Zintl phase tetrelides and their 2D van der Waals deintercalation products. This is a paper that I wrote when I was in graduate school but the approach that I have taken in this work has shaped how we use micro-Raman spectroscopy in my group as an enabling tool to probe the structure, lattice dynamics, and stimulus-sensitive response of various classes of low-dimensional solids, especially approaching atomic scale thicknesses.

PM: I am going to cheat a little bit and pick a paper from each JMC-A and JMC-C! In a paper we published in JMC-A last year (J. Mater. Chem. A, 2023, 11, 17159–17166) we built upon some previous work to try to identify general conditions for the solvent-free synthesis of conjugated microporous polymers. We tested over 30 different Lewis/Bronsted acids and found just one (ZnBr2) that can be used generally to make many different porous materials from simple poly(ketone) monomers. Really a user-friendly way to make porous materials, which is something our lab is excited about. This year in JMC-C, we published a paper looking carefully at a really difficult problem – nitrous oxide (N2O) activation using MOFs. We looked carefully at a number of different materials to try to understand what enables N2O cleavage by metal sites in MOFs to make N2 and reactive metal oxos. This work also sparked a collaboration with Heather Kulik at MIT, which continues to this day!

At which upcoming conferences may our community meet you?

MA: My group and I will be attending the American Chemical Society Spring 2025 meeting in San Diego and the North American Solid State Chemistry Conference in Ames, Iowa in Summer 2025.

PM: I am currently planning to attend EuroMOF 2025!

What do you like to do in your free time?

MA: In a recent feature in C&EN magazine (https://cen.acs.org/materials/inorganic-chemistry/Maxx-Arguilla/101/i16), I talked about how the 1D materials that my group works on resemble many forms of pasta of various thicknesses, dimensionalities (spaghetti vs. lasagna), tubular forms (penne and rigatoni), or even complex chiral structures (fusilli and rotini). This comparison was intentionally by design since I am a foodie—I spend my free time either trying out new hole-in-the-wall restaurants or cooking (often times, homemade pasta dishes) in my home kitchen.

PM: Since it is basically just “applied chemistry,” brewing beer is something I like to do for fun. I also like to listen to (admittedly terrible) music.

Do you have any advice for Early-Career researchers who wish to be nominated for the 2025 JMC Lectureship award?

MA: While many of our projects are hypothesis-driven, the most unusual results that we found in our materials systems arose from curiosity-driven research. In classes of materials where our chemical intuition is limited, there is a large, untapped opportunity to explore ideas that do not necessarily conform to the scientific norms in various fields. Thus, if there is an advice that I can give to early-career researchers, it would be to follow their scientific curiosities as these could lead to surprising discoveries that can accelerate (or change) the course of the field!

PM: One piece of advice I got (from one of my colleagues) is “there is no silver bullet.” I interpreted this as, don’t just do whatever everyone else is doing – work on what you find interesting and think could be impactful! It is good to think outside the box about what new ideas you can bring to long-standing challenges in the field.

Related posts:

2024 Journal of Materials Chemistry Lectureship winner: Raphaële Clément

2024 Journal of Materials Chemistry Lectureship shortlisted candidates

 

 

 

 

 

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2024 Journal of Materials Chemistry Lectureship winner: Raphaële Clément

Congratulations to Dr Raphaële Clément, University of California, Santa Barbara, United States for being selected as the recipient of the 2024 Journal of Materials Chemistry Lectureship

The Journal of Materials Chemistry Lectureship is an annual award, established in 2010, which honours early-career scientists who have made a significant contribution to the fields of materials chemistry. This year we received numerous high-quality nominations from across the world. With help from our Advisory and Editorial Boards, each nomination was assessed and considered for the award. The final selection was made by our Editors-in-Chief and Executive Editor.

“This is a wonderful recognition of the group’s hard work over the years.”

Dr Raphaële Clément

University of California, Santa Barbara, United States

2024 Journal of Materials Chemistry Lectureship

Dr Raphaële Clément is an Associate Professor in the Materials Department at UC Santa Barbara. She received her Ph.D. in Chemistry in 2016 from the University of Cambridge, working under the supervision of Prof. Dame Clare Grey. She then joined the group of Prof. Gerbrand Ceder as a postdoc at UC Berkeley. Since 2018, the Clément group at UC Santa Barbara is interested in establishing materials design rules, and in optimizing materials processing approaches to advance electrochemical energy storage. The group’s expertise lies in the development and deployment of magnetic resonance and magnetometry techniques (experimental and computational) for the study of battery materials and beyond, with an emphasis on real-time, operando analysis. Raphaële’s recent awards include an NSF CAREER Award, a 2024 Camille Dreyfus Teacher-Scholar Award, the IBA Early Career Researcher Award from the International Battery Association, as well as the Battery Division Early Career Award from the Electrochemical Society. She is a Topical Editor for ACS Energy Letters.

You can keep up to date with Raphaële’s research on her website: https://clement.materials.ucsb.edu/

Discover Raphaële’s RSC publications in this web collection to find out more about her research

Check out our interview with Raphaële below:

How did you feel when you were announced as the winner of the 2024 Journal of Materials Chemistry Lectureship?

I was thrilled. This is a wonderful recognition of the group’s hard work over the years. I have been fortunate to work with talented students and postdocs, so this award goes to them too.

Which of your JMC publications are you most proud of and why?

This paper (J. Mater. Chem. A, 2022, 10, 21565-21578) lead by a former student, Elias, is a textbook example of the impact of materials synthesis and processing on structure and properties. This is a study of a new class of Na-ion solid conductors, where solid-state NMR was key to understanding their complex defect and polymorphic landscape, and ion transport processes. I am proud of it because this was a complicated puzzle and we solved it!

At which upcoming conferences may our community meet you?

I am often at the MRS, ECS, and ACS conferences, as well as more specialized battery and NMR conferences.

What do you like to do in your free time?

I like to spend time in nature (hiking, backpacking, or on a road trip), exercising (yoga, running), exploring new parts of the world, listening to podcasts, going to concerts, and cooking.

Do you have any advice for Early-Career researchers who wish to be nominated for the 2025 JMC Lectureship award?

Don’t give up! There are many talented Early Career researchers out there, and only one receives the Lectureship every year. I applied several times and this paid off.

Please join us in congratulating Raphaële!

Related posts:

2024 Journal of Materials Chemistry Lectureship runners-up: Maxx Arguilla and Phillip Milner

2024 Journal of Materials Chemistry Lectureship shortlisted candidates

 

 

 

 

 

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Welcoming Professor Chuanlai Xu to the Journal of Materials Chemistry B and Materials Advances Advisory Boards

 

Professor Chuanlai Xu is a Distinguished Professor at Jiangnan University in China. He is a passionate educator and a highly successful entrepreneur who has transferred academic discoveries to real societal impact on food safety and drug abuse. His research focuses on the development of nanomaterials and biomaterials for antibody engineering and diagnostics. He has made three key contributions to medical and biological engineering:

1. Developing chiral nanoparticles as immune adjuvants

Nanoparticle chirality presents a captivating avenue for exploring their potential as vaccine adjuvants. These intricately structured particles offer unique opportunities to fine-tune immune responses and enhance vaccine efficacy. Professor Xu pioneered the development of chiral nanoparticles using circularly polarized light. His lab identified the key receptors on immune cells for chirality-dependent immune responses. They found that chiral nanoparticles as adjuvants substantially enhance the efficacy of vaccines and can boost the production of antibodies (1.4 times faster immune cell maturation and 44.8 times greater IgG production) compared to the conventional aluminium or Freud adjuvant.

2. Developing antibodies for small molecules

Small molecules typically do not elicit an immune response and generate antibodies on their own. Linking them to larger biomolecules, such as proteins or peptides, can effectively induce antibody production, a strategy known as hapten-carrier conjugation. Professor Xu’s lab pioneers the development of antibodies for heavy metal ions. To help fight the current opioid crisis in the US, he has developed a series of highly specific monoclonal antibodies against fentanyl and its analogues such as Thiofentanyl, Norfentanyl, Acetylfentanyl, Para-fluorofentanyl, Acrylfentanyl, 4-fluoroisobutyrfentanyl, Ocfentanyl, Carfentanil, Sufentanil, Furanylfentanyl.

3. Formulating antibody production media

Antibody quality has been a chronic problem in biomedical research and clinical diagnostics. Factors influencing antibody quality such as batch-to-batch variability, specificity, and sensitivity are well-known, but matrix mismatch between the conditions of antibody screening and antibody uses is often overlooked. Professor Xu’s lab screened cell lines that gradually adapt to the application environment during cell culture to produce monoclonal antibodies that can tolerate the complex matrices during application. Based on this innovation, he has built the world’s largest small-molecule antibody resource bank (more than 20,000 cell lines).

 

Overall, Professor Xu is a pioneer in developing innovative materials and methods for antibody engineering. He has published more than 500 papers in high-visibility journals including Nature, Nature Biomedical Engineering, Nature Catalysis, Nature Nanotechnology, Nature Aging, Nature Communications, JACS, Angewandte Chemie, and PNAS. Collectively, these papers have been cited ~24,000 times. He holds more than 300 issued patents and patent applications and is the recipient of many prestigious awards and fellowship recognitions, including World’s Best Scientists Ranking in Chemistry (2023), Highly Cited Researchers by Elsevier 2020, 2021, 2022, 2023, Fellow of the Royal Society of Chemistry (2015), Fellow of the Institution of Engineering and Technology (2023), Fellow of the Institute of Materials, Minerals and Mining (2023).

 

 

An interview with Chuanlai Xu

What does it mean to you to join the Advisory Board of Journal of Materials Chemistry B and Materials Advances?

I am truly honored and happy to join the Advisory Board of the prestigious Journal of Materials Chemistry B and Materials Advances, which publish high quality research at the interface of materials chemistry, biology and medicine. The unique opportunity to join the Advisory Board will enable me to represent the breadth of interests and diversity of the journals’ community more broadly, to actively promote the journals within the community and encourage potential authors to submit their best work if and when suitable, to provide feedback and advice on community perception of the journals, suggest improvements for consideration by the Editorial Board and act as a sounding board for proposed policy changes.

 

What is the current biggest challenge you face in your field?

Truly original research or discovery is greatly important.

For our team, can we cure neurodegenerative diseases?

Neurodegenerative diseases, in which nerve cells in the brain or nervous system lose their function and die, can cause great suffering. Millions of people each year experience pain and trauma from these diseases, the most common of which are Alzheimer’s and Parkinson’s. Interventions can reduce or alleviate symptoms but do not provide complete relief, and so far, there is no cure and no way to completely stop or reverse the progression of the disease. Age is an important risk factor – the likelihood of being diagnosed with a neurodegenerative disease increases exponentially as you get older. According to the World Health Organization, neurodegenerative diseases will become the second most common cause of death within the next two decades.

 

Why do you feel that researchers should choose to publish their work in Journal of Materials Chemistry B and/or Materials Advances?

Journal of Materials Chemistry B and Materials Advances are truly reputable and widely read interdisciplinary forums for publishing cutting-edge research on materials, chemistry, biology, and medicine, which maximizes the visibility and impact of scientific research.

 

Can you tell us about one of your latest Journal of Materials Chemistry B publication?

In this paper, the developed LFIA is applied to the specific identification and rapid detection of niacin in nutritional dietary supplements, thus meeting the market’s demand for efficient niacin detection methods.

Immunological strip sensor for the rapid determination of niacin in dietary supplements and foods
Jialin Hu, Aihong Wu, Lingling Guo, Yongwei Feng, Liqiang Liu, Maozhong Sun, Aihua Qu, Hua Kuang, Chuanlai Xu and Liguang Xu
J. Mater. Chem. B, 2024,12, 691-700, DOI: 10.1039/D3TB02209A
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Open Call: Honorary collection in memory of Professor Dr Helmut Ringsdorf

Honorary collection in memory of Professor Dr Helmut Ringsdorf

Open for Submissions until 20 March 2025

We would like to announce this Open Call for our upcoming Journal of Materials Chemistry B and C honorary collection in memory of Professor Dr Helmut Ringsdorf.

Professor Dr Helmut Ringsdorf (30 July 1929 to 20 March 2023) was a prominent German chemist who died last year on 20 March 2023 at the age of 93. During his entire scientific career, Professor Dr Ringsdorf made significant contributions to the scientific community in the scientific domains of supramolecular chemistry, polymer science, materials science, and biocompatible materials. Professor Dr Helmut Ringsdorf’s contributions have had a lasting impact on both fundamental science and practical applications, making him a highly respected figure in the scientific community. In gratitude for his scientific services, we present this special collection.

Focusing on the same scientific domain of Professor Dr Ringsdorf, this honorary themed collection aims to include the following topics:

  • ​Strategic design and architectures of new supramolecular systems and their applications in electronics, optoelectronics, robotics, electro-optics and thermotropics
  • Design, synthesis and characterization of new symmetric and unsymmetric columnar mesogenic systems
  • Charge transport mechanism in supramolecular systems. This topic will include an advancement in the electric field and temperature dependent charge transport in supramolecular, π-conjugated and polymeric LC systems
  • Design of new liquid crystalline materials and their dielectric, ferroelectric, and semiconducting behaviour
  • Polymer chemistry: Design of new polymeric systems as charge transport materials in solar cells, organic field-effect transistors and light-emitting diodes
  • Liquid crystal polymers (LCPs) and their applications
  • Design and synthesis of new organic charge transport materials
  • Biocompatible materials for biomedical and sensing applications; biodegradable polymers
  • Design of soft matter-based drug delivery systems, macromolecular drugs and polymer-based drug delivery systems

The Guest Editors welcome submissions that are within the scope of Journal of Materials Chemistry B or Journal of Materials Chemistry C and encourages potential contributors to contact the Editorial Office regarding the suitability of manuscripts for the honorary collection.

This collection is guest edited by Dr Dharmendra Pratap Singh (Université du Littoral Côte d’Opale (ULCO), France), Professor Dr Matthias Lehmann (University of Würzburg, Germany), Professor A.S. Achalkumar (IIT Guwahati, India), Professor Sandeep Kumar (Nitte Meenakshi Institute of Technology, India).

For this Open Call, we welcome full Papers and Communications. All submissions will be subject to assessment against the journal’s usual scope and standards criteria and sent for peer review only if appropriate. Accepted articles will be published online as soon as they are ready and added to the web collection.

We sincerely hope that you will be able to contribute your latest research to this themed collection. We look forward to receiving your manuscripts.


Dr Dharmendra Pratap Singh (Université du Littoral Côte d’Opale (ULCO), France)

Dr Dharmendra Pratap Singh is an Associate Professor at the University of the Littoral Opale Coast (Université du Littoral Côte d’Opale (ULCO)), France. He is a member of the Unité de Dynamique et Structure des Matériaux Moléculaires (UDSMM) laboratory and head of the first-year cycle of Industrial Engineering at the Engineering School of the ULCO. Dr. Singh obtained his Ph.D. degree from the Department of Physics, University of Lucknow, India in 2016. His current research activities are focused on the columnar materials, discotics, ferroelectrics, nematics and ferroelectric nematic liquid crystals along with their nano-dimensional counterparts for studying the charge transport mechanisms and their applications in energy, sensing, thermoelectricity, optoelectronics, photovoltaics and organic electronics. He has received the Young Scientist Award by the Indian Science Congress in 2017. He is the recipient of the best research award by the Indian Liquid Crystal Society in 2012 and an early career award at Cambridge University in 2013. He was also awarded by a Best Research award by the Korean Display Society (KIDS) in 2015 and the prestigious Raman-Charpak fellowship between India and France. He has published more than 100 research articles in esteemed journals and 4 book chapters. He is also the principal investigator of many projects such as PHC Star, Procore, Galilée, Alliance and Samuel de Champlain with South Korea, Hong Kong, Italy, the United Kingdom, Poland, Belgium and Canada, respectively. Presently, he is serving as a reviewer for more than 35 reputed journals from RSC, ACS, APS, Wiley, Elsevier, AIP, IOP, Springer, Nature, etc. He is also life-time member of the International Liquid Crystal Society, Indian Liquid Crystal Society, and affiliate member of RSC. He is also serving as “Guest Editor” for the Journal of Molecular Liquids (Elsevier).

Professor Dr Matthias Lehmann (University of Würzburg, Germany)

Matthias Lehmann is a Professor in Organic Materials – Soft Materials and Liquid Crystals – since 2011 at the University of Würzburg and held before the prestigious Heisenberg fellowship of the German Science Foundation. He studied Chemistry at the University of Mainz, and began his independent career as a Juniorprofessor at the Chemnitz University of Technology after Postdoc positions at the University of Zaragoza and the Free University of Brussels.

His research interest focus on the synthesis, self-assembly and application of complex soft matter with liquid-crystalline properties as new emerging materials. Special emphasis lays in the structural control, which is studied by comprehensive X-ray scattering methods, modelling and simulation.

Professor A.S. Achalkumar (IIT Guwahati, India)

Achalkumar Ammathnadu Sudhakar is working as a full professor at the Department of Chemistry, IIT Guwahati from 2019, where he leads the Soft Matter Research Group. He is also associated with the Centre for Sustainable Polymers at IIT Guwahati. He received his PhD from Centre for Nano and Soft Matter Sciences (CeNS) Bengaluru. He worked as a Postdoctoral Researcher at the Centre for Molecular Nano Sciences, University of Leeds, Leeds, UK (2007 to 2009) and at RIKEN Advanced Science Institute, Wakoshi, Japan (2009 to 2011), before joining IIT Guwahati. He has been the recipient of Indian Liquid Crystal Society Silver Medal 2019, CRS Silver Medal 2023, Fellow of Royal Society of Chemistry and Fellow of Indian Chemical Society for his research achievements. His research interests fall in the broad area of liquid crystals, supramolecular chemistry, functional polymers, organogels and self-assembled organic semiconductors. He has published around 100 papers and 3 patents. So far 7 students have obtained PhD under his guidance and He has several invited articles and hot articles to his credit. Apart from the academic work, he has also served as a Dean of Outreach Education Program at IIT Guwahati from 2021-2024. He is serving as an Associate Editor for prestigious journals – Materials Advances and Journal of Materials Chemistry C of Royal Society of Chemistry from 2023. He is the life member of Indian Liquid Crystal Society, Chemical Research Society, Society for Polymer Science in India and an invited member for American Chemical Society.

Professor Sandeep Kumar (Nitte Meenakshi Institute of Technology, India)

Dr Sandeep Kumar is a Professor at the Department of Chemistry, Nitte Meenakshi Institute of Technology, Bangalore, India. He obtained his Ph.D. from Banaras Hindu University, Varanasi in 1986. He was a Postdoctoral Research Fellow at the Hebrew University of Jerusalem; Technion, Israel Institute of Technology, Israel; the Scripps Research Institute, La Jolla, USA during 1988-1994. He worked with Professor Ringsdorf at the University of Mainz, Germany during 1994–1995 prior to joining the Centre for Liquid Crystal Research, Bangalore to start a new Chemistry laboratory. In 2002, he moved to the Raman Research Institute, Bangalore from where he superannuated in November 2019 and joined NMIT.

He was a visiting Research Professor at the Naval Research Laboratory, Washington DC during 1999-2000, at the National Dong Hwa University, Hualien, Taiwan during 2008 and E.T.S. Walton Visiting Professor at the Trinity College, Dublin, Ireland during 2012-2013. He has also visited many other countries like, U.K., France, Switzerland, Japan, China, Korea, Malaysia, Singapore, Slovenia, Poland, Italy to deliver lectures.

He has published more than 350 research papers in peer reviewed top-rated international journals; 3 Books, 13 book chapters and 10 patents. These papers have received about 12000 citations with h-index of 49 and I-10 Index of 236 (https://scholar.google.com/citations?user=AI_wSdAAAAAJ&hl=en).

He was awarded the inaugural LG Philips Display Mid-Career Award by the International Liquid Crystal Society in 2008; Indian Liquid Crystal Society Lifetime achievement award 2020 and Professor Shivaramakrishna Chandrasekhar Lecture Award 2023.

Professor Sandeep Kumar has made outstanding contributions in the field of Liquid Crystals with the highest number of publications on Discotic Liquid Crystals in the world. He is in the world’s top 2% scientists list, published by the Stanford-Elsevier, 2021, 2022, 2023. ScholarGPS has placed him at the 29th position in the Top 0.05% list of all scholars worldwide in liquid crystal field.

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Congratulations to the poster prize winners at the Cambridge Bioelectronics Symposium

Congratulations to the poster prize winners at the Cambridge Bioelectronics Symposium held on 1-3 July 2024 in Cambridge, UK. Ahmed Omara won the Journal of Materials Chemistry B award, while Joseph Asfouri won the Journal of Materials Chemistry C award.

Ahmed Omara, Leibniz Institute for Polymer Research Dresden

Presentation of poster prize certificate to Ahmed Omara

Poster title: Hydrogel-Functionalized Microelectrode Arrays (MEAs) for Multimodal Cell Stimulation

Biography: Ahmed Omara, originally from Egypt, holds a bachelor’s degree in mechanical engineering with a double concentration in material science and mechatronics, and a minor in economics from the American University in Cairo, graduating in 2015. He pursued an Erasmus Mundus master’s program in nanoscience and nanotechnology, spending the first year in Belgium and the second in Barcelona, Spain. Specializing in nanomaterials, he discovered a passion for biomaterials, hydrogels, tissue engineering, and electronics.

After his masters Ahmed returned to Egypt in 2021 where he worked as a lead scientist to create biodegradable plastics from natural sources at Sadko group of companies. Currently, he is pursuing a PhD at the Leibniz Institute for Polymer Research in Dresden, Germany, focusing on fabricating bioelectronic devices and functionalizing them with hydrogel for multimodal cell simulation at a single-cell resolution level.

 

Joseph Asfouri, University of Cambridge

Poster prize certificate presented to Joseph AsfouriPoster title: Towards a 3D, Flexible, Biohybrid Device for Cell Replacement Therapy for Parkinson’s Disease

Biography: Joseph is a master’s student in George Malliaras’ lab at the University of Cambridge. During his undergraduate years at Rice University, he studied electrical engineering and neuroscience while conducting research on magnetogenetic neural stimulation at Rice, deep brain stimulation for depression at Baylor College of Medicine, and brain-computer interfaces for motor prostheses at the University of Washington. At Cambridge, he designed a novel bioelectronic implant to enhance stem cell therapy for Parkinson’s disease. Along with his passion for neural engineering, his interests include science policy and commercialization to translate neurotechnology safely and efficiently from the lab to the clinic. This fall, Joseph will return to the US to start his PhD in the UC Berkeley-UCSF Joint Bioengineering Program.

 

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