Benjamin Tawiah

Industrial Art

About

Dr. Benjamin Tawiah is a materials scientist and textile technologist whose work has earned him international acclaim, including recognition by Stanford University as one of the World’s Top 2% Scientists. His career is marked by a deep commitment to advancing sustainable materials, flame-retardant technologies, and functional textiles through rigorous research, academic mentorship, and global collaboration.Currently serving as a senior lecturer in the Department of Industrial Art (Textile Section) at the Kwame Nkrumah University of Science and Technology (KNUST) in Kumasi, Ghana, Dr. Tawiah plays a pivotal role in shaping the future of textile education and innovation in West Africa. His academic journey began at KNUST, where he earned a Bachelor of Arts in Industrial Art (Textiles Option). He later pursued a Master of Textile Engineering at Jiangnan University in China, followed by a Ph.D. in Textile and Clothing Technology at the Hong Kong Polytechnic University. His postdoctoral research at the same institution, and later at the City University of Hong Kong, further solidified his expertise in high-performance materials and interdisciplinary applications.Dr. Tawiah’s research spans a wide array of cutting-edge domains, including the synthesis and application of flame retardants, bio-inspired and biodegradable polymers, energy storage systems (ESS), UV/NIR protective textiles, and nanomaterials functionalization. His work is particularly focused on the development of eco-friendly flame-retardant composites and multifunctional textiles that address both performance and sustainability. These innovations have significant implications for industries ranging from fashion and construction to aerospace and defense.A prolific scholar, Dr. Tawiah has authored numerous high-impact publications in leading journals such as ACS Applied Materials & Interfaces, Carbon, Journal of Hazardous Materials, Polymers, and ACS Sustainable Chemistry & Engineering. His research on sustainable fashion transitions toward a net-zero future has been widely cited and serves as a foundational reference for policymakers and industry leaders seeking to integrate environmental responsibility into textile production and design.Beyond his research, Dr. Tawiah is an influential figure in academic publishing. He serves as an editor for the International Journal of Textile Science and Engineering, Fashion and Textile Review and as editor-in-chief for the Journal of Sustainable Transitions, where he oversees the dissemination of innovative research in textile technology and sustainable design. His editorial contributions ensure that emerging scholars and practitioners have access to rigorous, relevant, and forward-thinking scholarship.Dr. Tawiah is also a sought-after speaker at international conferences, where he presents on topics such as smart fiber technologies, flame-retardant innovations, and policy frameworks for sustainable fashion. His thought leadership extends to national development initiatives, where he provides expert consultation to the Ghanaian government’s TVET agenda, particularly in competency-based training and curriculum development for the textile and fashion sectors. He also contributes technical input to Ghana’s national textile and garment policy, helping to align local industry practices with global sustainability standards.In addition to his academic and policy work, Dr. Tawiah is a dedicated mentor to MPhil and PhD students, fostering a new generation of researchers equipped to tackle the complex challenges of textile science and sustainable innovation. His interdisciplinary approach, bridging chemistry, material science, and fashion technology, continues to inspire transformative research and practical solutions for a more sustainable future.His contributions not only advance the frontiers of textile science but also empower communities and industries to embrace sustainability, innovation, and resilience.

Research Summary

(inferred from publications by AI)

The researcher's work focuses on advancing materials science with a primary emphasis on battery technologies and energy storage innovations, encompassing supercapacitors, polymer foams, additive manufacturing techniques, and biodegradable materials. The research explores applications across diverse fields, including electronics, textiles, printing, environmental remediation, and insect pest control, aiming to develop more efficient, sustainable, and innovative material solutions for energy conversion and storage.

Research Themes

All Papers

Recent advances in zinc anodes for high-performance aqueous Zn-ion batteries(2020)

Fiber-Based Materials for Aqueous Zinc Ion Batteries(2022)

Advanced Flexible Carbon-Based Current Collector for Zinc Storage(2022)

Zwitterionic triple-network hydrogel electrolyte for advanced flexible zinc ion batteries(2021)

Poly(ionic liquid) additive: Aqueous electrolyte engineering for ion rectifying and calendar corrosion relieving(2023)

Constructing PEDOT:PSS/Graphene sheet nanofluidic channels to achieve dendrite-free Zn anode(2021)

Interlayer-expanded MoS2 hybrid nanospheres with superior zinc storage behavior(2021)

Realizing Long-life Zn Anode by Few-layer Graphene Ion-oriented Interface(2021)

Sciento-qualitative study of zinc-iodine energy storage systems(2023)

Directionally Modulated Zinc Deposition by a Robust Zincophilic Cu‐Phthalocyanine Protective Layer in Dendrite‐Free Aqueous Zinc Ion Batteries(2025)

Rationally designed tungsten trioxide nanosheets for high-efficiency aqueous battery application(2023)

Long-life zinc electrodes achieved by oxygen plasma functionalization(2021)

Highly stable and low-temperature-tolerant zinc ion storage enabled by carbitol electrolyte additive engineering(2022)

A Carbitol Modified Electrolyte for Long-Life Zinc Storage with Enhanced Low-Temperature Operation(2022)

Correction to: Fiber-Based Materials for Aqueous Zinc Ion Batteries(2022)

High-Performance Wide-Temperature Zinc-Ion Batteries with K+/C3N4 Co-Intercalated Ammonium Vanadate Cathodes(2025)

Functionalization of MXene Nanosheets for Polystyrene towards High Thermal Stability and Flame Retardant Properties(2019)

Thermal and Crystallization Behavior of MXene/Polymer Nanocomposites(2022)

Theory, Modeling, and Simulation of MXene/Polymer Nanocomposites(2022)

Thermoset/MXene Nanocomposites(2022)

DOPO-Decorated Two-Dimensional MXene Nanosheets for Flame-Retardant, Ultraviolet-Protective, and Reinforced Polylactide Composites(2021)

Advances in Flame Retardant Poly(Lactic Acid)(2018)

Microporous boron based intumescent macrocycle flame retardant for poly(lactic acid) with excellent UV protection(2020)

Synthesis and application of synergistic azo-boron-BPA / polydopamine as efficient flame retardant for poly(lactic acid)(2018)

Highly Effective Flame-Retardant Rigid Polyurethane Foams: Fabrication and Applications in Inhibition of Coal Combustion(2019)

Facile flame retardant finishing of cotton fabric with hydrated sodium metaborate(2019)

Flame retardant poly (lactic acid) biocomposites based on azo‐boron coupled 4,4′‐sulfonyldiphenol and its combination with calcium lignosulfonate—Crystalline and mechanical properties(2019)

Facile preparation of uniform polydopamine particles and its application as an environmentally friendly flame retardant for biodegradable polylactic acid(2020)

Editorial: Fire risk and prevention technologies of polymeric and composite materials(2023)

Nanodiamond decorated phosphor-silicone thermally conductive PA6 composites with excellent flame retardancy, nanomechanical and thermo-pyroelectric response(2025)

A facile and sustainable approach for simultaneously flame retarded, UV protective and reinforced poly(lactic acid) composites using fully bio-based complexing couples(2021)

Bionanocomposite Materials for Sustainable Development(2025)

Characteristics of pigments, modification, and their functionalities(2019)

Polymer-Encapsulated Colorful Al Pigments with High NIR and UV Reflectance and Their Application in Textiles(2015)

An overview of the science and art of encapsulated pigments: Preparation, performance and application(2022)

Phthalocyanine green aluminum pigment prepared by inorganic acid radical/radical polymerization for waterborne textile applications(2016)

Coloration of aluminum pigment using SiO2 and γ-glycidoxypropyltrimethoxysilane with dichlorotriazine reactive dye(2016)

A review of fiber-based supercapacitors and sensors for energy-autonomous systems(2024)

Nanotechnology in Societal Development(2024)

Preparation of UV-cured pigment/latex dispersion for textile inkjet printing(2014)

Properties of alginate fiber spun-dyed with fluorescent pigment dispersion(2014)

Advances in the Development of Antimicrobial Agents for Textiles: The Quest for Natural Products. Review(2016)

Status and Development of Transfer Printing in Textiles—A Review(2018)

Facile synthesis of a cardanol‐based levelling agent as a biodegradable alternative to tristyrylphenol ethoxylates for the dyeing of polyester fabric(2021)

Enhancing the affinity and adsorption efficiency of Glochidion ericarpum Champ leave extract to cotton for colouristic and functional properties integrating trimethyl chitosan and ultrasonic technique(2022)

Adsorption behaviour of carbon black/latex by cationised cotton fabrics(2015)

Growing Poly(norepinephrine) Layer over Individual Nanoparticles To Boost Hybrid Perovskite Photocatalysts(2020)

Water-stable MAPbBr3@PbBrOH QDs confined by metal–organic framework for photodegradation of wastewater(2025)

Effects of differential degree of chemical modification on the properties of modified starches: Sizing(2016)

Highly reusable Bi2O3/electron-Cu-shuttle in-situ immobilized polyacrylonitrile fibrous mat for efficient photocatalytic degradation of methylene blue and rhodamine B dyes(2024)

Promoting the photocatalytic power of nanofibrous mat via coaxial electrospinning: Activity of core-sheath Cu-Bi2O3/Cellulose acetate@PAN mat in methylene blue degradation(2025)

Highly Reusable Bi2o3/Electron-Cu-Shuttle In-Situ Immobilized Polyacrylonitrile Fibrous Mat for Efficient Photocatalytic Degradation of Organic Dyes(2023)

Water-Stable Mapbbr3@Pbbroh Qds Confined by Metal–Organic Framework for Photodegradation of Wastewater(2025)

Systematic Review of Conductive Inks for E-textiles: Formulation, Printing Methods, Challenges, and Opportunities(2025)

Scientometric Review of Sustainable Fire-Resistant Polysaccharide-Based Composite Aerogels(2023)

Electrochemical Fiber Electrode Fabrication by Spinning: State-of-the-Art and Perspectives(2025)

High-accuracy circuits on fibrous materials for flexible tension sensor(2023)

Flame retardant poly(lactic acid) biocomposites reinforced by recycled wool fibers – Thermal and mechanical properties(2019)

Vacancy-mediated Interfacial Charge Transfer in Au-ZnO by Fe promoter for low-temperature CO oxidation.(2021)

Boosting the efficiency of low-loaded Au on spongy Fe2O3 via interfacial ferric hydroxide for low-temperature CO oxidation(2022)

A scalable wood-based interfacial evaporator assisted with localized joule heating for round-the-clock operations(2024)

Review of effects of COVID-19 pandemic on the textile industry: challenges, material innovation and performance(2023)

The exploration of near-extinct indigenous Ghanaian cultural symbols for interior decoration(2023)

Enhancing Potassium‐Ion Storage through Nanostructure Engineering and Ion‐Doped: A Case Study of Cu2+‐Doped Co0.85Se with Yolk‐Shell Structure(2024)

Mosquito-repellent textiles: a systematic review of material innovations, application principles and research trends(2025)

Microporous transition metal phosphide flame retardant toughened PA6 composites with excellent thermal conductivity and ferroelectric response(2025)

Carbon-Based Thermal Management Solutions and Innovations for Improved Battery Safety: A Review(2025)

Tribology of hybrid nanofiller/polymer nanocomposites(2023)

Nanotechnology and Water: Emerging Solutions for a Global Crisis(2024)

Nanotechnology and Education: Preparing the Next Generation of Future Leaders(2024)

Bio-nanomaterials and Composites in Artistry and Cultural Heritage Preservation(2025)

Biochemical Effects of Six TiO2 and Four CeO2 Nanomaterials in HepG2 Cells(2016)

Polymer Nanocomposite Foams and Acoustics(2023)

Nanotechnology and the Environment: Opportunities and Challenges(2024)

Manganese-Coordinated Cellulose Based-Separator for Efficient and Reliable Zn-Ion Transport(2024)

Biomimetic Design Concepts in African Textile Prints: Embracing Nature's Influence on Fashion and Textiles(2024)

Challenges and Prospects of Sericulture in Ghana: Review(2025)

Assessment of Garment Quality and its Impact on Environmental Sustainability among Accra Technical University Fashion Design Graduates(2025)

Understanding consumer choices in African textile prints: a multi-criteria decision making and analytical hierarchical process approach(2025)

Conjugated polymer materials for water-splitting(2025)

Challenges and prospects of ready-to-wear garment manufacturing and retail in Ghana: a case study of the Ashanti region(2025)

The Power of Collaboration: Resilience of the Apparel Industry in Ghana during the COVID-19 Pandemic(2025)

Sustainable fashion transition towards net-zero future: A review of digital and material innovations, policies and regulatory framework(2025)

Bionanocomposites in Environmental Remediation and Water Purification(2025)

Bionanocomposites in Nanostructured Coatings and Wearable Textile Applications(2025)

Collaboration Network

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Research Collaboration Map

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About This Profile

This profile is generated from publicly available publication metadata and is intended for research discovery purposes. Themes, summaries, and trajectories are inferred computationally and may not capture the full scope of the lecturer's work. For authoritative information, please refer to the official KNUST profile.