Muhammad Usman Shoaib
About Muhammad Usman Shoaib
Muhammad Usman Shoaib is a scientist at Procter & Gamble, focusing on sustainability within the oral care sector. He has a background in materials science and engineering, with experience in both industry and academia.
Title and Current Role
Muhammad Usman Shoaib is a Scientist currently working at Procter & Gamble. Since 2021, he has been focusing on sustainability initiatives within the oral care sector. He is based in Frankfurt, Hessen, Germany, where he applies his engineering knowledge to real-world applications.
Work Experience at Procter & Gamble
Muhammad Usman Shoaib has held multiple roles at Procter & Gamble. Before becoming a Scientist in 2021, he worked as an Associate Scientist from 2020 to 2021 in Germany. He also gained preliminary experience as an Intern in 2019 for 8 months, also in Germany.
Previous Research and Internship Positions
His past roles include being a Research Assistant at the Faculty of Mechanical Engineering, Ruhr University Bochum from 2018 to 2019 in Germany. He also worked as a Researcher at Penn State University for one month in 2018. His internship experience spans across various organizations including the British Council, Sui Northern Gas Pipelines Ltd, UNIDO, and Eastern Testing Services, primarily between 2015 and 2016.
Educational Background
Muhammad Usman Shoaib holds a Master's degree in Materials Science and Simulation from Ruhr University Bochum, achieved between 2017 and 2019. He also earned a Bachelor's degree in Materials Engineering from the National University of Sciences and Technology (NUST) from 2013 to 2017. His earlier education includes A levels and GCE O levels from Beaconhouse School System, studied between 2009 and 2013.
Focus on Sustainability
At Procter & Gamble, Muhammad Usman Shoaib has been actively contributing to sustainability within the oral care sector. His work emphasizes integrating sustainable practices and solutions, demonstrating a keen interest in applying his engineering expertise to enhance both product efficiency and environmental impact.