David Staack demonstrates the plasma reactor used to convert methane into graphene oxide and hydrogen in a laboratory.

What began as a hydrogen-production project resulted in a scalable process for creating a critical material used in batteries, electronics and advanced manufacturing.

Close-up of multiple bright blue battery cells arranged in rows, illuminated with a glowing effect.

Dr. Jorge Seminario is working to develop next-generation battery materials and technologies that could deliver safer and more efficient energy storage.

Data servers with an orange light.

Texas A&M chemical engineering researchers have analyzed common causes of fires in data centers and identified ways to mitigate the growing risk.

Abstract representation of green cells or microorganisms set against a soft, blurred background. The image features circular shapes and patterns, emphasizing a scientific or biological theme.

Texas A&M researchers in the chemical engineering department have introduced a newer ammonia production method by using renewable electricity.

Texas A&M researchers are transforming ordinary sand into a water-saving material to improve crop resilience in dry conditions.

Texas A&M researchers are transforming ordinary sand into a water-saving material to improve crop resilience in dry conditions.

Illustration depicting a recycling symbol with four factories, each emitting smoke. Three factory icons are connected by arrows, accompanied by symbols of a brick and a container, suggesting a focus on industrial recycling processes.

Texas A&M researchers are developing a way to interconnect industrial facilities in order to enhance efficiency and support a net-zero emissions future.

A factory surrounded by a force field, with a binary code background.

Researchers developed a framework to keep processing plants safe from cyber-attacks.

A graphic of a spotlight filled with gears on a cancer cell.

Researchers are using molecular motors as a new tool for medical intervention to target and destroy cancer cells.

An image of LED lights.

Dr. Jiho Shin and international collaborators outline the promise of micro-LED technology and the manufacturing challenges preventing its use in everyday devices.

A person holding a tool in a petri dish of polymers.

Texas A&M researchers have received funding to study novel polymers called salogels, which can be used for temperature regulation improvements.