Harvard’s campus and community through the lens of our photographers.
As a world-class research university, Harvard labs explore everything from capturing carbon to city planning. Cross-collaboration and community are the threads that tie them all together.
“The science of electrochemistry is driving the development of new frontiers,” said Kiana Amini, a postdoctoral fellow in Michael Aziz’s flow battery lab at the Harvard John A. Paulson School of Engineering and Applied Sciences. “Collaborating with my colleagues, exchanging knowledge and expertise, and contributing to the development of sustainable energy storage and carbon capture is an incredibly rewarding experience.”
Harvard Kenneth C. Griffin Graduate School of Arts and Sciences student Noah Lopez agreed. “It is an absolute pleasure to engage in regeneration research in the Whited Lab,” said Lopez. “We place great importance in fostering a sense of community, collaboration, and mentorship within our lab.”
For Professor Kathryn Franich, it’s the diversity of speech that she explores in her research in the Linguistics Lab. “A big part of our work looks at how differences in structure across languages — such as whether a language is a tonal language or a stress-based language — influence speech timing and coordination,” she explained.
Kyeong Baek (left) and Nicole Taylor use molecular beam epitaxy, an ultraprecise form of evaporation in high-vacuum environments, to synthesize thin-film metals.
Margaret Anderson uses the same process inside Julia Mundy’s Lab.
Christina (Tina) Warinner, associate professor in the Department of Anthropology, extracts proteins and looks at dental calculus samples in a clean room in the biology labs. Warinner specializes in biomolecular archaeology, with an emphasis on reconstructing the prehistory of human foods and the evolution of the microbiome.
Warinner’s students work with a 3D scanner in the Peabody Museum. Melina Seabrook, (left), a GSAS graduate student in anthropology, performs bone sampling and collagen extraction using sheep mandibles as Warinner looks on.
In the Whited Lab, GSAS grad student Noah Lopez (from left), undergrad Shifa Hossain ’23, and Assistant Professor Jessica Whited engage in cell research using a MinION. The portable device is used for DNA and RNA sequencing.
Priscilla Cheav ’25 works on a city planning model during a winter session workshop at the Art Lab.
SEAS postdoctoral fellow Kiana Amini uses a fume hood electrochemical carbon capture and release station while studying flow batteries with Michael Aziz’s group at the McKay Lab. Kia Hardcastle, a postdoctoral fellow in instruction and research, and Cheshta Bhatia (blue shirt), a GSAS Ph.D. candidate, work on motor learning in Bence Ölveczky’s lab.
GSAS students Michal Szurek (from left), Alexander Douglas, and Ognjen Markovic (hand shown), study images of single atoms moving in an optical lattice. Markus Greiner’s Urbium Lab uses ultracold quantum gases on optical lattices to simulate models from condensed matter physics. Using a microscopy technique developed in the lab, they can see and manipulate individual atoms to perform experiments with remarkable levels of control and accuracy. Greiner analyzes images of single atoms moving around in an optical lattice.
Szurek (from left), Douglas, and Ognjen Markovic analyze images of single atoms moving in an optical lattice.
Group will include higher education, healthcare, and cultural institutions, seek to leverage buying power to advance cost-effective, green production projects