Muhamad Safuan Shamshol Bahri | Environmental Hypotheses | Research Hypothesis Excellence Award

Muhamad Safuan Shamshol Bahri | Environmental Hypotheses | Research Hypothesis Excellence Award

Mr Muhamad Safuan Shamshol Bahri, Malaysia Institute of Transport, MITRANS, Universiti Teknologi MARA, Shah Alam, Malaysia

Dr. Muhamad Safuan Shamshol Bahri is a distinguished researcher in transport and logistics, specializing in sustainable port operations πŸŒΏβš“. Currently pursuing his PhD at Universiti Teknologi MARA (UiTM), he has made significant contributions to environmental sustainability in maritime logistics. His expertise lies in performance measurement, green port policies, and decision-making frameworks πŸ“ŠπŸŒ. A lecturer and former quality engineer, he has received multiple gold awards for his research on intelligent decision-making in ports πŸ₯‡πŸ”¬. As an active member of TAM and MSORSM, Dr. Bahri continues to shape the future of sustainable maritime operations through impactful research, innovation, and industry collaboration πŸš’πŸ’‘.

Publication Profile

Google Scholar

Education

Mr. Muhamad Safuan Shamshol Bahri is a dedicated researcher pursuing a Doctor of Philosophy (PhD) in Transport and Logistics at Universiti Teknologi MARA, Shah Alam (2022 – Present) πŸ“šβš™οΈ. He previously earned a Master of Science (MSc) in Logistics and Transportation from the same university (2021 – 2022) πŸŽ“βœ…, graduating on time. His academic journey began with a Bachelor of Naval Architecture and Offshore Engineering (Hons.) from Universiti Teknologi Malaysia, Skudai (2015 – 2019) β›΅, where he achieved a commendable CGPA of 3.42/4.00. His expertise lies in maritime engineering, logistics, and transportation, contributing to advancements in these fields. πŸš’πŸ“¦

Experience

Mr. Muhamad Safuan Shamshol Bahri is an experienced educator and engineer with a strong background in maritime business, logistics, and quality management. As a Lecturer at Peninsula College (Northern) in Georgetown (2021-2022) πŸ“–, he taught maritime business and logistics management 🚒, designed curricula, and guided student projects πŸ“š. Previously, he worked as a Quality Engineer at JTEKT Automotive Malaysia Sdn Bhd (2019-2021) 🏭, ensuring product compliance with customer specifications πŸ“‹. His role involved conducting root cause failure analysis βš™οΈ, implementing preventive measures, and managing inspection reports and quality documentation βœ…. His expertise bridges both academia and industry, contributing to innovation and excellence.

Awards & Honors

Mr. Muhamad Safuan Shamshol Bahri has demonstrated excellence in maritime logistics and sustainable port innovation through multiple prestigious awards. He earned the Gold Award for An Ingenious Priority Determination for Sustainable Port (AI_DSP) at IBMVIC 2024 πŸ… and the Bronze Medal for the same project at IIDEX 2024 πŸ₯‰. His expertise was further recognized with two Gold Awards πŸ₯‡ for An Intelligent MCDM Performance Measurement for Maritime Logistics (IMPerMAL) at VMIIE 2022 and the 4th Virtual International Breakthrough IID Exhibition 2022. His contributions continue to enhance decision-making and performance measurement in the maritime industry. πŸš’βš“

Research Interest

Muhamad Safuan Shamshol Bahri is a dedicated researcher specializing in Management Science and Operations Research, with a focus on performance measurement and Data Envelopment Analysis (DEA) πŸ“ŠπŸ“ˆ. His expertise extends to Multicriteria Decision Making (MCDM), where he applies advanced analytical methods to optimize decision-making processes πŸ€–βš™οΈ. With a strong academic and research background, he contributes to the development of innovative frameworks that enhance efficiency and effectiveness in various industries πŸ’πŸ’‘. His work plays a crucial role in improving decision support systems, ensuring that organizations can achieve optimal performance through data-driven strategies πŸ“‰βœ….

Research Focus

Dr. Muhamad Safuan Shamshol Bahri’s research focuses on environmental sustainability in port operations βš“πŸŒ±. He specializes in green port performance measurement, developing MCDM-based decision-making models, and integrating sustainable practices in logistics πŸ“ŠπŸ”. His work also explores regulatory frameworks and governance for eco-friendly port operations, utilizing methodologies like Data Envelopment Analysis (DEA) and Intuitionistic Fuzzy AHP πŸŒπŸ“ˆ. Through his studies, he contributes to optimizing operational efficiency while minimizing environmental impact, advancing sustainability in maritime logistics πŸŒŠπŸ’‘.

Publication Top Notes

A tri-level AHP approach for port logistics personnel performance evaluation

Comparative analysis on decision criteria for port personnel using hybrid Analytical Hierarchy Process (H-AHP)

Evaluating cost-efficient queue priorities for berth allocation via simulation

Comparative Analysis On Port Personnel Selection Using Hybrid Analytical Hierarchy Process (h-AHP)

Use of Monte Carlo simulation for hybrid multicriteria decision making approaches

Sustainable port operations and environmental initiatives in Malaysia: A focus on environmental sustainability

Evaluating Priorities of Environmentally Sustainable Port Performance Using an Intuitionistic Fuzzy Analytical Hierarchy Process Approach

A Hybrid Multicriteria Decision-Making Model for Environmentally Sustainable Port

 

 

 

 

Liu Xiaolu | Chemistry and Materials Science | Best Researcher Award

Liu Xiaolu | Chemistry and Materials Science | Best Researcher Award

Ms Liu Xiaolu, North China Electric Power University, China

πŸŽ“ Ms. Liu Xiaolu is a dedicated researcher pursuing her Ph.D. at North China Electric Power University (2022–present), after earning her Master’s (2019–2022) and Bachelor’s (2015–2019) degrees from the same university and Yanshan University, respectively. πŸ§ͺ Her research focuses on functional porous nanomaterials and radionuclide separation. 🌍 She has authored 17 papers in prestigious journals like Nat. Commun., Adv. Sci., and Langmuir. πŸ“š Liu actively participates in global conferences, including ACS Spring 2024. Her groundbreaking work on MOFs, COFs, and electrocatalysis is shaping innovations in energy and environmental applications. ⚑🌱

Publication Profile

Scopus

Education

Ms. Liu Xiaolu πŸŽ“ began her academic journey at Yanshan University, earning her Bachelor’s degree between September 2015 and June 2019 πŸ“š. Driven by a passion for further knowledge, she pursued her Master’s degree at North China Electric Power University from September 2019 to June 2022 ⚑. Continuing her academic excellence, she is currently a dedicated Doctoral candidate at the same university since September 2022 πŸ“. Her commitment to education and research showcases her strong determination and academic growth 🌟.

Research Achievement

Ms. Liu Xiaolu is a prolific researcher with 17 first-author publications in prestigious journals like Nature Communications 🌍, Advanced Science πŸš€, Langmuir 🌊, and Innovation πŸ’‘. Her representative works include papers in Nat. Commun. (2024, 15, 7736), Adv. Sci. (2022, 9, 2201735; 2023, 10, 2303536), J. Mater. Chem. A (2021, 9, 21051-6), and Crit. Rev. Env. Sci. Tec. (2021, 51, 751-790; 2023, 53, 1289-1309) πŸ“š. She has significantly contributed to Environmental Pollution 🌿, Sci. China. Chem. πŸ§ͺ, and EEH πŸ”¬. Her research showcases innovation and scientific excellence, reflecting her dedication to impactful discoveries. ✨

Academic Conference

Ms. Liu Xiaolu has actively participated in several prestigious conferences, showcasing her expertise in environmental and radiochemistry. 🌍 She attended the 1st Conference of Carbon Research in Guangzhou, China (March 24–26, 2023) and the 12th National Conference on Environmental Chemistry in Wuhan, China (November 17–21, 2023). πŸ§ͺ Additionally, she contributed to the Conference of National Radiochemistry Development Strategy and Academic Exchange in Nanchang (October 20–23, 2023). βš›οΈ Expanding her global reach, Ms. Liu joined the ACS Spring 2024 Meeting held online from New Orleans (March 17–21, 2024), reflecting her dedication to scientific growth and collaboration. 🌐

Research Interest

Ms. Liu Xiaolu specializes in the design and synthesis of functional porous nanomaterials πŸ§ͺ, focusing on creating advanced materials with unique structures and properties. Her research also delves into the separation and extraction of radionuclides βš›οΈ, aiming to enhance techniques for environmental protection and nuclear waste management 🌍. By combining innovative nanotechnology with efficient separation methods, she contributes to sustainable solutions in energy and environmental sciences πŸ’‘. Her work bridges the gap between material science and nuclear chemistry, paving the way for safer and cleaner technologies in the future πŸš€.

Research Focus

Ms. Liu Xiaolu’s research focuses on advanced materials like Metal-Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs), and their derivatives for energy and environmental applications 🌱⚑. Her work explores innovative approaches to electrocatalytic COβ‚‚ reduction, enhancing photocatalytic performance, and piezocatalytic techniques for pollutant degradation πŸŒπŸ”¬. By modulating the coordination environment of atomically dispersed metals, she aims to improve efficiency in low-overpotential and industrial-scale processes βš‘βš—οΈ. Her research contributes to sustainable solutions for clean energy and environmental remediation, addressing global challenges in pollution control and renewable energy 🌊🌞.

Publication Top Notes

Emerging MOFs, COFs, and their derivatives for energy and environmental applications

Modulating the Coordination Environment of Atomically Dispersed Nickel for Efficient Electrocatalytic CO2Β Reduction at Low Overpotentials and Industrial Current Densities

Rational Design of 3D Space Connected Donor–Acceptor System in Covalent Organic Frameworks for Enhanced Photocatalytic Performance

Piezocatalytic techniques and materials for degradation of organic pollutants from aqueous solution

Conclusion

Ms. Liu Xiaolu is a distinguished researcher known for her outstanding publication record πŸ“š, innovative research in environmental and energy applications 🌍⚑, and active participation in international conferences 🌐🎀. Her groundbreaking work contributes significantly to sustainable solutions, addressing global environmental challenges with creativity and expertise πŸŒ±πŸ”¬. Ms. Liu’s dedication to advancing knowledge and her impactful presence in the research community make her a highly suitable candidate for the Best Researcher Award πŸ†πŸŽ“. Her passion for scientific excellence and commitment to global sustainability continue to inspire peers and future researchers alike πŸŒŸπŸ’‘.

 

 

 

Tamara Erceg | Chemistry and Materials Science | Hypothesis Achievement Award

Tamara Erceg | Chemistry and Materials Science | Hypothesis Achievement Award

Dr Tamara Erceg, Faculty of Technology Novi Sad, Serbia

Based on Dr. Tamara Erceg’s extensive experience, achievements, and contributions to the field of polymer science, particularly in green chemistry and biodegradable materials, she appears to be a suitable candidate for the Hypothesis Achievement Award. Here are the key points supporting her candidacy.

Publication profile

Orcid

  • Academic Excellence: Dr. Erceg completed her Ph.D. in Polymer Science with the highest average note of 10.00. Her research focuses on the structuring of polymer networks, highlighting her expertise and innovation in the field.
  • Professional Experience: She has been involved in educational and pedagogical work at the Faculty of Technology Novi Sad since 2016, and has been a research associate there, demonstrating her commitment to advancing science and education.
  • Research Contributions: Dr. Erceg has numerous publications in high-impact journals (Q1) covering a wide range of topics, including biodegradable packaging, polymer nanocomposites, and sustainable materials. Her work on active coatings for food packaging and the development of biodegradable cellulose acetate-based films showcases her dedication to solving real-world problems through scientific research.
  • Leadership and Collaboration: She has held significant roles in various projects, including being a project manager for international collaborations and projects funded by the Ministry of Science, Innovation, and Technological Development of the Republic of Serbia. Her involvement in multidisciplinary projects and international conferences highlights her leadership and collaborative skills.
  • Impact and Innovation: Dr. Erceg’s work on biodegradable materials and green chemistry principles aligns with current global priorities on sustainability and environmental protection. Her contributions to the development of eco-friendly packaging solutions and her research on the optimization of biodegradable bags underscore her innovative approach to addressing pressing environmental issues.
  • Research focus

  • Tamara Erceg’s research focuses on the development and characterization of sustainable, eco-friendly materials and active packaging solutions. Her work includes studies on pullulan-based edible coatings to extend cheese shelf life, antioxidant recovery using cloud point extraction, hydrogels, and biodegradable cellulose acetate films. She explores the incorporation of essential oils for antimicrobial packaging and analyzes the thermal stability of bio-based urea-formaldehyde resins. Erceg’s contributions aim to improve food preservation, enhance material properties, and reduce environmental impact through innovative biopolymer applications. πŸŒΏπŸ§€πŸ›‘οΈπŸ“¦πŸ”¬
  • Publication top notes

  • Comparison of the Properties of Pullulan-Based Active Edible Coatings Implemented for Improving Sliced Cheese Shelf Life

  • Updating the Status quo on the Eco-Friendly Approach for Antioxidants Recovered from Plant Matrices Using Cloud Point Extraction

  • Architecture of Hydrogels

  • Hydrolytic and thermal stability of urea-formaldehyde resins based on tannin and betaine bio-fillers