T. Alan Hatton is the Ralph Landau Professor and the Director of the David H. Koch School of Chemical Engineering Practice at

Massachusetts Institute of Technology The Massachusetts Institute of Technology (MIT) is a Private university, private research university in Cambridge, Massachusetts, United States. Established in 1861, MIT has played a significant role in the development of many areas of moder ...

. As part of the MIT Energy Initiative, he co-directs the Center for Carbon Capture, Utilization and Storage. His work focuses on the development of purification technologies of various kinds for use with air, water, and other substances.

Early life and education

Trevor Alan Hatton was born in

Durban, South Africa Durban ( ; , from meaning "bay, lagoon") is the third-most populous city in South Africa, after Johannesburg and Cape Town, and the largest city in the province of KwaZulu-Natal. Situated on the east coast of South Africa, on the Natal Bay o ...

. He earned his B.Sc. Eng. (1972) and M.Sc. Eng. (1976) degrees at the

University of Natal The University of Natal was a university in the former South African province Natal which later became KwaZulu-Natal. The University of Natal no longer exists as a distinct legal entity, as it was incorporated into the University of KwaZulu- ...

, Durban. He then worked for the Council for Scientific and Industrial Research in Pretoria for three years. Hatton earned his Ph.D. from the

University of Wisconsin–Madison The University of Wisconsin–Madison (University of Wisconsin, Wisconsin, UW, UW–Madison, or simply Madison) is a public land-grant research university in Madison, Wisconsin, United States. It was founded in 1848 when Wisconsin achieved st ...

, in 1981, working with Edwin N. Lightfoot.

Career

Hatton joined the

(MIT) in 1982. For several years he and his wife Marianne were faculty residents, living at MacGregor House until 1986. In 1995,

Ralph Landau Ralph Landau (May 19, 1916 – April 5, 2004) was an American chemical engineer and entrepreneur active in the chemical and petrochemical industries. He is considered one of the top fifty foundational chemical engineers of the first half of the 2 ...

established a new chair at MIT: the Ralph Landau Professorship of Chemical Engineering Practice, to be held by the Director of the David H. Koch School of Chemical Engineering Practice. T. Alan Hatton became the first Ralph Landau Professor of the Practice School in 1996. At the Practice School, students complete placements at industrial projects with international host companies, as well as taking on-campus academic courses. Hatton has been the program director of the Practice School for over 28 years. Beginning in 2015, the MIT Energy Initiative has established eight low-carbon energy centers focusing on technical advancements in areas critical for

climate change Present-day climate change includes both global warming—the ongoing increase in Global surface temperature, global average temperature—and its wider effects on Earth's climate system. Climate variability and change, Climate change in ...

. Hatton co-directs the Center for Carbon Capture, Utilization and Storage. Hatton holds an honorary professorship at the

University of Melbourne The University of Melbourne (colloquially known as Melbourne University) is a public university, public research university located in Melbourne, Australia. Founded in 1853, it is Australia's second oldest university and the oldest in the state ...

and is an adjunct professor at

Curtin University Curtin University (previously Curtin University of Technology and Western Australian Institute of Technology) is an Australian public university, public research university based in Bentley, Western Australia, Bentley, Perth, Western Australia. ...

Perth, Australia Perth () is the capital city of Western Australia. It is the fourth-most-populous city in Australia, with a population of over 2.3 million within Greater Perth . The world's most isolated major city by certain criteria, Perth is part of the ...

. He has served as a co-editor of '' Colloids and Surfaces'', and is on the international advisory board of the ''Chinese Journal of Chemical Engineering''. In 1990, he chaired the

Gordon Research Conference Gordon Research Conferences are a group of international scientific conferences organized by a non-profit organization of the same name, since 1931 covering frontier research in the chemical, and physical and later biological Biology i ...

on ''Separation and Purification''. In 1999, he co-chaired the 73rd Colloid and Surface Science Symposium, held at MIT, with Paul E. Labinis.

Research

Hatton has published widely on colloidal phenomena and their applications in chemical processing. His research interests include responsive surfactants and gels obtained by colloidal self-assembly, stimuli-responsive materials, chemically reactive fibers and fabrics, metal-organic frameworks for separations and catalysis, and synthesis and functionalization of magnetic nanoparticles and clusters. Much of his work focuses on the development of purification technologies of various kinds. In the 1980s, he studied the effects of metal ions, clays, and minerals on sorption capacities. In the 1990s, Hatton worked to develop solvents for chemical synthesis, separation and cleaning that were less volatile and less water-soluble. This decreased the potential for undesirable air emissions or aqueous discharge. Hatton has done considerable work on the use of magnetically sensitive nanoparticles for separation of liquids. Nanoparticles can be designed with a distinctive protein signature that will attract and attach a desired target protein. The nanoparticles can then be added to a suspension, where they will attach the target molecules. By subjecting the liquid to a magnetic field, the nanoparticles with their attached targets can be removed from the suspension. Finally the nanoparticles and proteins can be separated, recovering the nanoparticles for reuse. Hatton has used this type of technique for the separation of oil from water. He hopes it may be used eventually for the cleaning up of oil spills. As of 2012, Hatton worked on electrochemically mediated methods of carbon capture and conversion which could be used to reduce emissions from power plants and industry and decrease greenhouse gases. The researchers are studying

magnesium oxide Magnesium oxide (MgO), or magnesia, is a white hygroscopic solid mineral that occurs naturally as periclase and is a source of magnesium (see also oxide). It has an empirical formula of MgO and consists of a lattice of Mg2+ ions and O2− ions ...

-based materials, coating particles of MgO with

alkali metal nitrate Alkali metal nitrates are chemical compounds consisting of an alkali metal (lithium, sodium, potassium, rubidium and caesium) and the nitrate ion. Only two are of major commercial value, the sodium and potassium salts. They are white, water-sol ...

s. The resulting materials can capture more than ten times as much

carbon dioxide Carbon dioxide is a chemical compound with the chemical formula . It is made up of molecules that each have one carbon atom covalent bond, covalently double bonded to two oxygen atoms. It is found in a gas state at room temperature and at norma ...

() as other materials being investigated, at lower temperatures. As of 2015, T. Alan Hatton and Aly Eltayeb received funding to develop a commercial prototype for

carbon capture and storage Carbon capture and storage (CCS) is a process by which carbon dioxide (CO2) from industrial installations is separated before it is released into the atmosphere, then transported to a long-term storage location.IPCC, 2021Annex VII: Glossary at ...

from the smokestacks of industrial and power plants that burn fossil fuels. First, flue gases are passed through a liquid containing amines, which attract carbon dioxide. Then, building on the work of Michael Stern, the prototype passes the resulting solution through an electrochemical cell containing two electrically charged copper plates. This causes the amines to release the carbon dioxide, which can be sequestered or reused. The approach would remove carbon from the atmosphere, while using less electricity than current amine scrubber technology. As of 2016, Yogesh Surendranath and T. Alan Hatton received a Seed Fund Grant from the MIT Energy Initiative to investigate the possible cycling of carbon dioxide () emissions into chemical fuel. With Xiao Su and others, Hatton has developed new methods of removing unwanted substances such as chemical waste, pesticides, and pharmaceuticals from water supplies. Both positive and negative electrodes or plates can be coated with Faradaic materials, which are chemically "functionalized" to react with specific molecules. As water flows between the plates, electricity is applied causing the active groups on the plates to combine with desired molecules. This process can work even with very small trace concentrations of target particles, present at parts-per-million. For their work on water purification, researchers won the 2016 Water Innovation Prize. By better understanding fundamental mechanisms involved in electrosorption, they are attempting to design more effective novel electrode materials.

Awards

* 2016, Water Innovation Prize, MIT * 1985, Presidential Young Investigator Award, NSF * 1983, Everett Moore Baker Award for Excellence in Undergraduate Teaching, MIT

References

{{DEFAULTSORT:Hatton, T. Alan Living people Year of birth missing (living people) Chemical engineering academics People from Durban University of Wisconsin–Madison alumni University of Natal alumni MIT School of Engineering faculty Academic staff of Curtin University