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Work with thought leaders and academic experts in Materials Chemistry

Companies can greatly benefit from working with academic researchers in the field of Materials Chemistry. These experts possess in-depth knowledge and skills that can contribute to various aspects of a company's operations. Here are some ways companies can collaborate with Materials Chemistry researchers: 1. Research and Development: Materials Chemistry researchers can help companies develop new materials with enhanced properties, such as improved durability, conductivity, or flexibility. This can lead to the creation of innovative products and technologies. 2. Product Improvement: By collaborating with Materials Chemistry experts, companies can improve the performance of their existing products. Researchers can analyze materials, identify weaknesses, and suggest modifications to enhance product quality and functionality. 3. Material Selection: Materials Chemistry researchers can assist companies in selecting the most suitable materials for their specific applications. They can evaluate the properties of different materials and provide recommendations based on performance, cost-effectiveness, and sustainability. 4. Problem Solving: When companies encounter material-related challenges or failures, Materials Chemistry researchers can provide valuable insights and solutions. They can investigate the root causes of issues, conduct experiments, and propose strategies to overcome obstacles. 5. Collaboration on Grant-funded Projects: Academic researchers often have access to funding opportunities through grants. By collaborating with Materials Chemistry experts, companies can participate in research projects and leverage external funding for mutual benefit.

Researchers on NotedSource with backgrounds in Materials Chemistry include Dr. Sakshi Kabra Malpani, John M Baust, Ph.D, Xiaolei Wang, Edward Elliott, Ph.D., Edohamen Awannegbe. PhD, CMatP, Zohreh Movahed, Keisha Walters, and ZAHRA KHADEMMODARESI.

Dr. Sakshi Kabra Malpani

Redmond, Washington, United States of America
Researcher with 10+ years expertise in Organic Chemistry, Solid Waste Management, Heterogeneous Catalysis.
Most Relevant Research Expertise
Materials Chemistry
Other Research Expertise (5)
Renewable Energy, Sustainability and the Environment
Organic Chemistry
Health, Toxicology and Mutagenesis
Pollution
Environmental Chemistry
About
Hello, I am Sakshi Kabra Malpani, with 10+ years of experience as a green, organic chemist and lecturer. My overarching research interests revolve around solid waste management, utilization of industrial and natural wastes in the development of heterogeneous catalysts, and their further utilization in different industrially viable organic transformations, extraction of various useful metal oxides like silica, alumina from such wastes. I favor interdisciplinary approaches to solve the aforesaid issues and have incorporated synthetic green chemistry as well as material science and conventional organic chemistry approaches in my research. Post Ph.D., I continued my research work at my workplaces in the form of different student projects at college and postgraduate levels. I also describe my interest and activities in science communication. Three of my designed catalysts have been patented on my name, my research work got published in peer-reviewed journals and books, also I presented my results at different international and national conferences. My father was a College Lecturer, so, from the early stages of my life, I want to become a teacher, saying teaching is in my DNA. Stepping to freelance consulting job, I would like to use my novel training as both an organic and environmental chemist, to investigate environmental processes on a range of temporal and spatial scales. I understand being a scientist or researcher does not mean just being successful in research. At the same time, one should be excellent in his/her interactions with the community and the students, in his/her role to lead the academic society, and in responsibilities to transform the community and society. To this end, I have been engaged in several volunteer activities, such as a volunteer in National Service Scheme and Teach For India movement, guiding and encouraging students to apply for further studies, research fellowships, competitive exams.
Most Relevant Publications (2+)

9 total publications

Perlite Supported Cobalt Oxide Catalyst for a Series of Liquid‐Phase Esterification Reactions

Macromolecular Symposia / Apr 01, 2022

Goyal, D., Saikia, H., Hada, R., Katara, S., Bhatia, A., & Malpani, S. K. (2022). Perlite Supported Cobalt Oxide Catalyst for a Series of Liquid‐Phase Esterification Reactions. Macromolecular Symposia, 402(1), 2100369. Portico. https://doi.org/10.1002/masy.202100369

Green, efficient and economical coal fly ash based phosphomolybdic acid catalysts: preparation, characterization and application

Chemical Papers / Feb 15, 2021

Malpani, S. K., Goyal, D., Katara, S., & Rani, A. (2021). Green, efficient and economical coal fly ash based phosphomolybdic acid catalysts: preparation, characterization and application. Chemical Papers, 75(7), 3017–3034. https://doi.org/10.1007/s11696-020-01501-x

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John M Baust, Ph.D

Ithaca, New York, United States of America
Proven success in delivering best-in-class services across scientific, commercial and education environments.
Most Relevant Research Expertise
Materials Chemistry
Other Research Expertise (16)
Cell Biology
Biotechnology
Biomedical Engineering
Transplantation
Surgery
And 11 more
About
***Proven success in delivering best-in-class services across highly regulated scientific and commercial environments.*** * Resourceful, dynamic, and future-focused professional; equipped with strategic leadership, business, research, and academic expertise with career excellence in conducting in-depth research, leading multi-faceted R&D projects, and developing new products and treatments. * Dedicated, driven self-starter focused on developing innovative life changing technologies and procedures advancing the areas of cancer treatment, regenerative medicine and cell therapy.   * Substantial experience in providing oversight for medical device development, pre-clinical studies, cancer therapy, stem cell preservation, cell therapy, tissue engineering, and organ transplantation, etc. * Astute at establishing solid relationships with stakeholders and industry leaders to drive innovative ideas and lead collaborative efforts in pursuit of accomplishing long-term milestones. * Successful in delivering interactive academic instruction across higher education settings offering captivating lectures on Biology and Entrepreneurship courses in accordance with the organizational mission. * Accredited with authoring, managing, and executing multi-million dollar grants, corporate contracts * Accomplished author of numerous patents and high profile publications to disseminate essential research findings.
Most Relevant Publications (1+)

68 total publications

Investigation of Bladder Cancer Cell Response to Cryoablation and Adjunctive Cisplatin Based Cryo/Chemotherapy

Clinical Research: Open Access / Jan 01, 2020

KL, S., JM, B., KK, S., RG, V. B., A, K., A, C., & JG, B. (2020). Investigation of Bladder Cancer Cell Response to Cryoablation and Adjunctive Cisplatin Based Cryo/Chemotherapy. Clinical Research: Open Access, 6(1). https://doi.org/10.16966/2469-6714.154

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Xiaolei Wang

Raleigh, North Carolina, United States of America
R&D Scientist in biomedical imaging and surgical microscope development
Most Relevant Research Expertise
Materials Chemistry
Other Research Expertise (19)
Optical imaging system development
image analysis algorithm development
Atomic and Molecular Physics, and Optics
Mechanics of Materials
Mechanical Engineering
And 14 more
About
I am an R&D Optical Scientist and Expert specializing in Optical Imaging and Optical Microscope Development for biomedical and clinical applications. With a background in Physics and over 15 years of experience in optical science and imaging, I am passionate about pushing the boundaries of what light can achieve in the realm of medicine and healthcare. My journey in the world of optics has led me to become a leader in the research and development of next-generation optical imaging products that have a profound impact on surgical procedures and patient outcomes. My areas of expertise encompass optical physics, optical microscopy, optical metrology, photonics, and computational modeling and simulation. I've had the privilege of sharing my insights through multiple peer-reviewed publications in prestigious journals like ACS Nano, Optical Letter, and Advanced Materials. Additionally, I hold certifications in machine learning and deep learning for image analysis, allowing me to harness the power of cutting-edge technology in my work.
Most Relevant Publications (2+)

33 total publications

A plasmonic nano-antenna with controllable resonance frequency: Cu1.94S–ZnS dimeric nanoheterostructure synthesized in solution

Journal of Materials Chemistry / Jan 01, 2012

Huang, F., Wang, X., Xu, J., Chen, D., & Wang, Y. (2012). A plasmonic nano-antenna with controllable resonance frequency: Cu1.94S–ZnS dimeric nanoheterostructure synthesized in solution. Journal of Materials Chemistry, 22(42), 22614. https://doi.org/10.1039/c2jm34239a

Kinase phosphorylation monitoring with i-motif DNA cross-linked SERS probes

Chemical Communications / Jan 01, 2016

Ren, W., Damayanti, N. P., Wang, X., & Irudayaraj, J. M. K. (2016). Kinase phosphorylation monitoring with i-motif DNA cross-linked SERS probes. Chemical Communications, 52(2), 410–413. https://doi.org/10.1039/c5cc06566f

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Edward Elliott, Ph.D.

Portland, Oregon, United States of America
Ph.D. Chemist with expertise in nanoparticle synthesis and characterization, medical diagnostics, materials chemistry, additive manufacturing, and development of novel composites.
Most Relevant Research Expertise
Materials Chemistry
Other Research Expertise (15)
Nanoscale Characterization
Nanoparticle Synthesis
Surface Chemistry
Atomic and Molecular Physics, and Optics
Physical and Theoretical Chemistry
And 10 more
About
Ed has been working in the field of nanoscience and chemistry since completing his Ph.D. in 2014. He has worked on a variety of projects ranging from drug delivery to nanodevice fabrication and characterization. Elliott has published numerous papers in both peer-reviewed journals and conferences and holds several US patents. He has also presented his research at various international conferences and workshops and currently works as a consultant focused on sustainability and green chemistry.

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Edohamen Awannegbe. PhD, CMatP

Sydney, New South Wales, Australia
Seeking a research position in fabrication, post-fabrication processing, microstructural characterisation and mechanical analysis of materials.
Most Relevant Research Expertise
Materials Chemistry
Other Research Expertise (7)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Microstructural characterisation
And 2 more
About
▪ High impact journal publications ▪ Seeking a research position ▪ PhD in Materials Science and Engineering, Australia o Structure and properties of additively manufactured titanium alloys ▪ MSc in Drilling Engineering, Norway ▪ BSc in Mechanical Engineering, United States of America ▪ Experienced in the analysis of solid-state transformation during additive manufacturing, microstructural characterisation of metals, mechanical testing design (tensile, compressive, fatigue, impact, torsional, bending, wear and corrosion), data visualization and analysis
Most Relevant Publications (1+)

4 total publications

Microstructural characterisation and mechanical evaluation of Ti-15Mo manufactured by laser metal deposition

Journal of Alloys and Compounds / Jun 01, 2023

Awannegbe, E., Li, H., Song, T., Niessen, F., Qian, M., Gazder, A. A., Nancarrow, M. J. B., & Pereloma, E. (2023). Microstructural characterisation and mechanical evaluation of Ti-15Mo manufactured by laser metal deposition. Journal of Alloys and Compounds, 947, 169553. https://doi.org/10.1016/j.jallcom.2023.169553

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Zohreh Movahed

Mississauga
PhD,University Technology Malaysia
Most Relevant Research Expertise
Materials Chemistry
Other Research Expertise (13)
Petroleum geology
Petroleum Geoscience
Well Logging
Geotechnical Engineering and Engineering Geology
Fuel Technology
And 8 more
About
I am a distinguished professional in the Oil & Gas industry with over 20 years of experience in geology, technical sales, and international marketing. Specializing in geological, fracture, and petrophysical imaging analysis & modelling. Holding a Ph.D. in Petroleum Engineering and a Master's in Paleontology and Stratigraphy, my career has spanned pivotal roles at major organizations including NIOC, Schlumberger, Teleperformance, UTM, PUT, Payam Noor university, Antaeus, and Karun Energy, among others. I have significantly contributed as an editor, educator, and consultant, demonstrating expertise in reservoir characterization and geological imaging. My work has been recognized through numerous awards, underlining my dedication to advancing petroleum engineering and geoscience.

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Keisha Walters

Fayetteville, Arkansas, United States of America
University of Arkansas
Most Relevant Research Expertise
Materials Chemistry
Other Research Expertise (34)
Inorganic Chemistry
Polymers and Plastics
Organic Chemistry
Fluid Flow and Transfer Processes
Mechanical Engineering
And 29 more
About
Her research covers a broad range of topics in polymer- and nano-based materials engineering and transport modeling, which has been published in 110+ refereed technical manuscripts and presented at numerous national and international conferences. Dr. Walters’ work has been sponsored by government agencies including NSF, DOE, and DOD, and by industry partners.
Most Relevant Publications (12+)

102 total publications

Facile Synthesis of Tertiary Amine Pendant Polymers by Cu0-Mediated ATRP under Aqueous Conditions

Macromolecules / Nov 08, 2021

Britten, C. N., Lason, K., & Walters, K. B. (2021). Facile Synthesis of Tertiary Amine Pendant Polymers by Cu0-Mediated ATRP under Aqueous Conditions. Macromolecules, 54(22), 10360–10369. https://doi.org/10.1021/acs.macromol.1c01234

Temperature-dependent self-assembly and rheological behavior of a thermoreversible pmma-Pn BA-PMMA triblock copolymer gel

Journal of Polymer Science Part B: Polymer Physics / Mar 25, 2017

Zabet, M., Mishra, S., Boy, R., Walters, K. B., Naskar, A. K., & Kundu, S. (2017). Temperature-dependent self-assembly and rheological behavior of a thermoreversible pmma-Pn BA-PMMA triblock copolymer gel. Journal of Polymer Science Part B: Polymer Physics, 55(11), 877–887. Portico. https://doi.org/10.1002/polb.24336

Bio‐based plasticizer and thermoset polyesters: A green polymer chemistry approach

Journal of Applied Polymer Science / Jun 02, 2016

Rowe, M. D., Eyiler, E., & Walters, K. B. (2016). Bio‐based plasticizer and thermoset polyesters: A green polymer chemistry approach. Journal of Applied Polymer Science, 133(45). Portico. https://doi.org/10.1002/app.43917

Fabrication of pH-sensitive poly(2-(diethylamino)ethyl methacrylate)/palygorskite composite microspheres via Pickering emulsion polymerization and their release behavior

Journal of Applied Polymer Science / Mar 26, 2015

Lu, J., Wu, J., Chen, J., Jin, Y., Hu, T., Walters, K. B., & Ding, S. (2015). Fabrication of pH-sensitive poly(2-(diethylamino)ethyl methacrylate)/palygorskite composite microspheres via Pickering emulsion polymerization and their release behavior. Journal of Applied Polymer Science, 132(26), n/a-n/a. https://doi.org/10.1002/app.42179

Nanomechanical properties of poly(trimethylene malonate) and poly(trimethylene itaconate) during hydrolytic degradation

Journal of Applied Polymer Science / Jun 30, 2014

Eyiler, E., Chu, I.-W., Rowe, M. D., & Walters, K. B. (2014). Nanomechanical properties of poly(trimethylene malonate) and poly(trimethylene itaconate) during hydrolytic degradation. Journal of Applied Polymer Science, 131(22). Portico. https://doi.org/10.1002/app.41069

Toughening of poly(lactic acid) with the renewable bioplastic poly(trimethylene malonate)

Journal of Applied Polymer Science / May 07, 2014

Eyiler, E., Chu, I.-W., & Walters, K. B. (2014). Toughening of poly(lactic acid) with the renewable bioplastic poly(trimethylene malonate). Journal of Applied Polymer Science, 131(20). Portico. https://doi.org/10.1002/app.40888

Support of dinuclear copper triketonate complexes on silica: Monolayer loading from complex footprint and the first crystallographically characterized cis dipyridine adduct

Inorganica Chimica Acta / Nov 01, 2014

Ranaweera, S. A., Rowe, M. D., Walters, K. B., Henry, W. P., White, M. G., & Rodriguez, J. M. (2014). Support of dinuclear copper triketonate complexes on silica: Monolayer loading from complex footprint and the first crystallographically characterized cis dipyridine adduct. Inorganica Chimica Acta, 423, 281–289. https://doi.org/10.1016/j.ica.2014.07.078

Comparison of surface confined ATRP and SET‐LRP syntheses for a series of amino (meth)acrylate polymer brushes on silicon substrates

Journal of Polymer Science Part A: Polymer Chemistry / Oct 27, 2009

Ding, S., Floyd, J. A., & Walters, K. B. (2009). Comparison of surface confined ATRP and SET‐LRP syntheses for a series of amino (meth)acrylate polymer brushes on silicon substrates. Journal of Polymer Science Part A: Polymer Chemistry, 47(23), 6552–6560. Portico. https://doi.org/10.1002/pola.23698

Synthesis and Characterization of a Tertiary Amine Polymer Series from Surface-Grafted Poly(tert-butyl acrylate) via Diamine Reactions

Macromolecules / Jun 13, 2007

Walters, K. B., & Hirt, D. E. (2007). Synthesis and Characterization of a Tertiary Amine Polymer Series from Surface-Grafted Poly(tert-butyl acrylate) via Diamine Reactions. Macromolecules, 40(14), 4829–4838. https://doi.org/10.1021/ma0700882

Grafting of end-functionalized poly(tert-butyl acrylate) to poly(ethylene-co-acrylic acid) film

Polymer / Sep 01, 2006

Walters, K. B., & Hirt, D. E. (2006). Grafting of end-functionalized poly(tert-butyl acrylate) to poly(ethylene-co-acrylic acid) film. Polymer, 47(19), 6567–6574. https://doi.org/10.1016/j.polymer.2006.07.018

Relationship between erucamide surface concentration and coefficient of friction of LLDPE film

Journal of Vinyl and Additive Technology / Jan 01, 2005

Ramirez, M. X., Walters, K. B., & Hirt, D. E. (2005). Relationship between erucamide surface concentration and coefficient of friction of LLDPE film. Journal of Vinyl and Additive Technology, 11(1), 9–12. https://doi.org/10.1002/vnl.20031

Surface Characterization of LLDPE Film Containing Glycerol Monostearate

Journal of Plastic Film & Sheeting / Jan 01, 2002

Sakhalkar, S. S., Walters, K. B., Hirt, D. E., Miranda, N. R., & Roberts, W. P. (2002). Surface Characterization of LLDPE Film Containing Glycerol Monostearate. Journal of Plastic Film & Sheeting, 18(1), 33–43. https://doi.org/10.1106/875608702026404

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ZAHRA KHADEMMODARESI

Lynchburg, Virginia, United States of America
PhD in Chemical Engineering
Most Relevant Research Expertise
Materials Chemistry
Other Research Expertise (13)
Polymer and Membrane Synthesis
Negative Carbon Capture
Waste(water) Treatment
Waste Management and Disposal
Process Chemistry and Technology
And 8 more
About
PhD in Chemical Engineering with ability to take initiative and ownership of tasks/projects/writing projects. Experienced in synthesis/fabrication of polymer/membranes, electrodes, and custom cell designs for electrodialysis, microbial electrolysis, Donnan dialysis, and fuel cells. Especially skilled in ion exchange membranes synthesis and proficient in using electrospinning apparatus and analysis equipment (e.g., NMR, TGA, DSC, SEM, and FT-IR). Experienced in using membrane-based separations in waste(water) treatment and direct capture of CO2 from the air. Research related to and skills in electrodeposition coating and microbial corrosion control of concrete and metals. Proficiency in MATLAB as a programming language and familiarity with industry process simulation tools (e.g., Aspen Plus and HYSYS). Experienced in preparing a variety of moderately complex process engineering deliverables: PFDs, P&IDs, Equipment Datasheets and Specifications. Assisted in writing and editing white papers, NSF, and other types of proposals for funding to support research efforts and generating reports about projects. Effective communication skills and the motivation to take on challenging work and delivering technical information to a broad range of audiences as evidenced by seven peer-reviewed articles and several conference presentations. Demonstrated leadership ability through teaching at university as an instructor for more than five years and working with interdisciplinary teams at Arizona State University as a postdoctoral research associate for one year.

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Example Materials Chemistry projects

How can companies collaborate more effectively with researchers, experts, and thought leaders to make progress on Materials Chemistry?

Development of Lightweight and Strong Materials for Aerospace Industry

Materials Chemistry researchers can collaborate with aerospace companies to develop lightweight and strong materials for aircraft construction. By optimizing material composition and structure, researchers can help improve fuel efficiency, reduce emissions, and enhance overall performance.

Enhancement of Battery Performance for Electric Vehicles

Companies in the electric vehicle industry can benefit from collaborating with Materials Chemistry experts to enhance battery performance. Researchers can design and synthesize new electrode materials, improve energy storage capacity, and optimize charging/discharging efficiency.

Development of Sustainable Packaging Materials

Materials Chemistry researchers can work with companies in the packaging industry to develop sustainable and eco-friendly packaging materials. By utilizing renewable resources and designing biodegradable materials, researchers can help companies reduce environmental impact and meet consumer demands for sustainable packaging solutions.

Improvement of Solar Cell Efficiency

Collaborating with Materials Chemistry experts can benefit companies in the renewable energy sector by improving the efficiency of solar cells. Researchers can develop new materials with enhanced light absorption and charge transport properties, leading to higher energy conversion efficiency and cost-effectiveness.

Development of High-performance Materials for Electronics

Companies in the electronics industry can collaborate with Materials Chemistry researchers to develop high-performance materials for electronic devices. Researchers can design and synthesize materials with improved conductivity, stability, and miniaturization capabilities, enabling the development of advanced electronic components.