South Dakota
Mines has signed a new Memorandum of Understanding (MOU) with the Indian Institute of Technology Guwahati (IITG) to advance
research into two-dimensional (2D) materials and biofilms. The collaboration
enables both institutions to share resources and leverage research funding opportunities
while joining multidisciplinary teams to maximize complex problem solving. The
work done in conjunction with this MOU will also directly benefit research underway
at the South Dakota 2DBEST
Biofilm Center.
“This international partnership provides Mines and the
2D BEST Biofilm Center and IITG researchers a framework to develop innovative
and catalytic collaborations at the intersection of 2D materials and biofilms,
which aligns well with the stated goals of NSF Office of International Science
and Engineering, and which promises to advance knowledge and benefit society,”
says Robb Winter, Ph.D., research director of the 2DBEST Biofilm Center and a
professor of chemical engineering at Mines.
The research
into 2D materials and biofilms has vast potential for future applications across
many fields. This includes the medical field with research into new classes of
anti-cancer, antibacterial and other pharmaceuticals. This research can also
help advance new types of energy production and storage; has benefits for agriculture,
including better new ways to protect and nourish crops for maximum yields; and has
applications in corrosion protection that will increase the longevity of structures
like steel bridges, ships, and buildings. The research collaboration can also yield
new startup businesses in any of these fields that add economic development
opportunities tied to each university.
“This new
agreement between Mines and IITG makes the research more accessible to a wider
range of students and the outcomes available to a wider audience,” says Venkata Gadhamshetty,
Ph.D., an associate professor of civil and environmental engineering at South
Dakota Mines. Dr. Gadhamshetty is a pioneer in creating 2D corrosion resistant
coatings for metals and an expert in microbiology and applied biochemistry.
Professor Tapas Kumar Mandal, Ph.D., and Associate Professor
Partho Sarathi Gooh Pattader, Ph.D., in the Department of Chemical Engineering
and Centre for Nanotechnology at IITG work on micro- and nanotechnology and its
applications in healthcare and energy harvesting. This includes biosensors that
can utilize non-invasive testing for disease markers, such as heavy metals or harmful
bacteria. Their work can also lead to advances in energy storage, fuel cells, carbon
capture, and energy generation.
“This collaboration between IITG and Mines will
benefit all of us. The multidisciplinary research can utilize various strengths
and expertise to move us to the next level and to benefit society,” says Dr. Mandal.
Bharat Jasthi, Ph.D., an associate professor of materials
and metallurgical engineering at South Dakota Mines brings an expertise in the
areas of advanced materials processing and surface engineering. “This agreement
will promote collaborations and provides mutual access to facilities and
research infrastructure on fundamental research related to 2D Materials and
their applications,” says Jasthi.
The agreement also creates an international pipeline
of graduate students who will continue advancing the science into the next
generation. The MOU creates an exchange program where student researchers in
each university can learn from faculty at both institutions and can access
testing and research equipment at both facilities.
“IITG has world class state of the art facilities
and equipment in the Central Instrumentation Facility and the Center for
Nanotechnology, available to researchers and graduate students with expert
faculty oversight and training,” says Dr. Mandal.
Associate Professor Krishna Pada Bhabak, Ph.D., in
the Department of Chemistry and the Center for the Environment at IITG, is
focusing on healthcare applications. His research in organic and bioorganic chemistry
can revolutionize drugs and drug delivery systems, such as creating medicines
that attack cancer cells without harming the surrounding tissues. His work also
delves into creation of new antibacterial and antiviral medicines plus an
effort to build sensors that can provide early detection of cancer and other
diseases.
“I am part of a very young group of researchers at
IITG and this MOU with Mines will definitely open new avenues of collaboration.
I am looking forward to the future of what we can accomplish together,” says
Dr. Bhabak. “I can already envision a significant number of collaboration opportunities,
with all of the exciting work at IITG,” Dr. Gadhamshetty adds.
Most importantly, the collaboration makes both
universities more competitive with major intuitions when applying for a limited
pools of research funding. “This agreement between Mines and IITG facilitates
the young researchers and the top scientists to easily collaborate and apply
for grants together,” says Professor Alan Dalton, who works with Dr. Manoj
Tripathi at University of Sussex in the United Kingdom. While both are not
direct part of the new MOU, they give praise to the collaborative effort and
look forward to the interdisciplinary collaboration. Professor Dalton and Dr.
Tripathi are experts in the field of low dimensional materials applicable in
flexible electronics, straintronics and sophisticated sensors. Their research
interest includes exploring the nano to microscale solutions of complex
phenomena at the surface and in the composites. They will be working alongside
the research groups at both universities.
The research collaboration tied to the new MOU is already
underway at Mines and IITG. The work is building on past research advancing the
use and understanding of 2D materials. Gadhamshetty credits success to the
entire team of researchers. “Our group members and collaborators deserve the credit
for helping to integrate my own 2D coatings research into grant proposals and successfully
funded projects. I’m excited that partnerships we are building will bear fruit
in both new research funding opportunities and scientific breakthroughs for
many years to come,” he says.