Founded in 1993, Independent University, Bangladesh (IUB) is one of the oldest and leading private universities in Bangladesh where academic excellence is a tradition, teaching a passion and lifelong learning a habit. IUB currently has more than 9,800 undergraduate and graduate students and over 13,700 alumni. The students of IUB experience an exciting academic life with copious opportunities to explore and nurture their innate talent.
Live in Field Experience (LFE) is a signature course of IUB. It allows IUB students, most of whom come from urban settings, to have an immersive experience of everyday life in rural Bangladesh. Unique in Bangladesh, the overarching idea, which owes its roots to some of the leading social thinkers of this region, is to bridge the gap in knowledge that an urban student has about their rural counterparts. As part of the LFE, which is a mandatory course, small groups of students (usually 5-10, mix of male and female, and English and Bangla medium backgrounds) spend a certain amount of time at different locations in Bangladesh and experience life in the fields.
IUB alumnus wins NASA grant for next gen space tech battery research
10/05/2024
IUB Alumnus Md. Wahidul Hasan, a PhD candidate and Research Assistant at the South Dakota Mines, USA, and his team have won the prestigious USD 750,000 NASA EPSCoR grant to fund research into the next generation of lithium-sulfur batteries for use in space technology. The grant follows an innovation leading to the use of corn stalk residues to stabilize battery chemistry and nearly double charging capacity of current technology.
Wahid, who obtained BSc degree in 2013 and MSc in 2016 in Electrical and Electronic Engineering from Independent University, Bangladesh (IUB) and also taught Computer Science and Engineering at IUB, specializes in solid state lithium sulfur battery and electrochemical energy storage. In 2021, Wahid won the prestigious Elsevier Foundation Chemistry for Climate Action Challenge for his project on generating electricity from cattle urine.
The Established Program to Stimulate Competitive Research (EPSCoR) of the National Aeronautics and Space Administration (NASA) establishes partnerships with government, higher education and industry that are designed to effect lasting improvements in a state or region's research infrastructure, research and development (R&D) capacity and its national R&D competitiveness.
According to a NASA press release issued last month, the South Dakota School of Mines and Technology will look to create a new lithium-sulfur battery technology that is superior to existing lithium-ion batteries. Improving the power capacity and life of batteries could help NASA power rockets, spacecraft, and habitats on the Moon, and eventually, Mars.
“Lithium sulfur battery is a relatively new type of battery that is still in the development and testing phase but it has already shown promise as a next generation energy storage technology. Sulfur is abundant in nature and we got the carbon from Corn stalks, making it a bio product, which means it is going through a renewable process. Therefore, we can definitely say that this battery is a source of renewable energy,” said Wahid.
“In recent times, the USA is focusing on promoting electric vehicles because they suit climate goals and help protect the environment. This technology, once fully matured, can be used in transportation and thus immensely help in reducing pollution in a developing country like Bangladesh,” said Wahid.
Apart from pursuing his PhD education and the research on lithium-sulfur battery technology, he aims at doing further research on developing carbon emission free renewable energy and battery storage. Wahid, whose father is a businessperson based in Chittagong and mother a homemaker, also plans to set up a research facility in Bangladesh for young scientists to develop new technologies.