Media Center Gallery

In the next five years, we will be able to capture CO2 from the air and transform it from the scourge of the environment into something useful. The goal is to make CO2 capture and reuse efficient enough to scale globally so we can significantly reduce the level of the harmful CO2 in the atmosphere and, ultimately, slow climate change.

In the next five years, we will be able to capture CO2 more efficiently and transform it into something useful. IBM researchers are working on a sustainable materials development platform for harnessing CO2 as a raw material for monomers and polymers such as plastic. The instrument pictured here is used to synthesize new CO2-based materials designed with a focus towards recyclability that allows for recovery and reuse.

In the next five years, we will replicate nature’s ability to convert nitrogen in the atmosphere into nitrate-rich fertilizer, feeding the growing world while reducing the environmental impact of fertilizers. We’ll come up with an innovative solution to enable nitrogen fixation at a sustainable scale and help feed the world’s rapidly growing population.

In the next five years, we will discover new materials for safer and more environmentally-preferable batteries capable of supporting a renewable-based energy grid and more sustainable transportation. Many renewable energy sources are intermittent and require storage. The use of AI and quantum computing will result in batteries built with safer and more efficient materials for improved performance.

A battery evaluation board in the IBM Research-Almaden Battery Lab used to measure the performance of a cobalt- and nickel-free battery developed by IBM researchers. The researchers showed that the battery could have higher power density, lower flammability and much faster charging times than conventional Li-ion batteries.

A battery tester and cycler in the IBM Research-Almaden Battery Lab, where IBM researchers developed a cobalt- and nickel-free battery that relies on an iodine-based cathode. The researchers showed that the battery could have higher power density, lower flammability and much faster charging times than conventional Li-ion batteries.

In the next five years, we will advance materials manufacturing, enabling semiconductor manufacturers to improve the sustainability of their coveted products. Scientists will embrace a new approach to materials design that enables the tech industry to more quickly produce sustainable materials for the production of semiconductors and electronic devices.

The SUNY Polytechnic Institute Colleges of Nanoscale Science and Engineering’s NanoTech Complex in Albany, NY is an example of where semiconductors are produced and photoresist materials are used. (Photo credit: Dan Corliss)

The SUNY Polytechnic Institute Colleges of Nanoscale Science and Engineering’s NanoTech Complex in Albany, NY is an example of where semiconductors are produced and photoresist materials are used. (Photo credit: Connie Zhou)

In the next five years, we aim to help facilitate the generation of treatments to aid physicians and front-line workers in combating novel, life-threatening viruses on a larger scale than is currently possible. A combination of AI, analytics and data can potentially help with the rapid analysis of real-world medical evidence to suggest new candidates for drug repurposing and speed clinical trials. In the future, these tools may reach widespread adoption across industries, effectively becoming one of the means of rapidly responding to global, life-threatening viruses.

The convergence of emerging technologies allows us to address the discovery process in a fundamentally new way. Once labelled promising but distant, quantum computers are developing steadily and show potential to simulate complex molecules on the fly, accurately and rapidly predicting the outcome of chemical reactions and helping us discover entirely new classes of materials.

Photo taken at 2018 ASCE (Credit: Graham Carlow)

The convergence of emerging technologies allows us to address the discovery process in a fundamentally new way. AI and quantum will increasingly combine with rapidly-advancing high-performance classical computers as a platform for scientific discovery.

The IBM-built Summit supercomputer pictured here is the world's smartest and most powerful supercomputer. (Photo Credit: ORNL)

IBM designed an approach to accelerate material discovery where AI is a key component across the entire chain of the material discovery process. This includes its cloud-powered chemistry lab RoboRXN, which allows researchers to create new materials by predicting the outcome of chemical reactions. Since earlier this year IBM scientists around the world are using RoboRXN to synthesize materials for carbon capture, photoresists and antivirals. It will soon go to work generating materials for nitrogen fixation.

The hybrid cloud will enable a flexible infrastructure of emerging technologies to supercharge the discovery of materials, some of which we haven’t imagined yet.

Inside the IBM Cloud in Dallas, Texas. (Credit: Connie Zhou for IBM)

IBM Chief Executive Officer Arvind Krishna (left) and Director of IBM Research Dario Gil are pictured with a 10-foot-tall and 6-foot-wide "super-fridge,” a dilution refrigerator larger than any commercially available. The “super-fridge” is being custom built by IBM to effectively support quantum systems as they scale to the thousands and eventually million-plus qubit systems of the future that will be capable of solving problems out of reach of today’s most powerful supercomputers (Credit: Connie Zhou for IBM)

IBM Chief Executive Officer Arvind Krishna (left) and Director of IBM Research Dario Gil are pictured with a 10-foot-tall and 6-foot-wide "super-fridge,” a dilution refrigerator larger than any commercially available. The “super-fridge” is being custom built by IBM to effectively support quantum systems as they scale to the thousands and eventually million-plus qubit systems of the future that will be capable of solving problems out of reach of today’s most powerful supercomputers (Credit: Connie Zhou for IBM)

:IBM Chief Executive Officer Arvind Krishna (left) and Director of IBM Research Dario Gil are pictured with a 10-foot-tall and 6-foot-wide "super-fridge,” a dilution refrigerator larger than any commercially available. The “super-fridge” is being custom built by IBM to effectively support quantum systems as they scale to the thousands and eventually million-plus qubit systems of the future that will be capable of solving problems out of reach of today’s most powerful supercomputers.
Credit: Connie Zhou for IBM

IBM Quantum Hummingbird is a 65-qubit processor available on the IBM Cloud for members of the IBM Q Network. Quantum processors rely on the mathematics of elementary particles in order to expand computational capabilities, running quantum circuits rather than the logic circuits of digital computers.
Credit: Connie Zhou for IBM

IBM Watson Assistant helps communicate registration and absentee ballot procedures to Idaho citizens (credit: IBM)

Credit: Tom Barnes for IBM

Artie is short for Artemis and Artificial Intelligence. He's a stowaway octopus hitching a ride on the Mayflower Autonomous Ship and, because he has seven arms, he's technically a septopus. He can be asked questions about the ship, the ocean, or about himself on mas400.com

Artie is short for Artemis and Artificial Intelligence. He's a stowaway octopus hitching a ride on the Mayflower Autonomous Ship and, because he has seven arms, he's technically a septopus. He can be asked questions about the ship, the ocean, or about himself on mas400.com

Artie is short for Artemis and Artificial Intelligence. He's a stowaway octopus hitching a ride on the Mayflower Autonomous Ship and, because he has seven arms, he's technically a septopus. He can be asked questions about the ship, the ocean, or about himself on mas400.com

Artie is short for Artemis and Artificial Intelligence. He's a stowaway octopus hitching a ride on the Mayflower Autonomous Ship and, because he has seven arms, he's technically a septopus. He can be asked questions about the ship, the ocean, or about himself on mas400.com

Artie is short for Artemis and Artificial Intelligence. He's a stowaway octopus hitching a ride on the Mayflower Autonomous Ship and, because he has seven arms, he's technically a septopus. He can be asked questions about the ship, the ocean, or about himself on mas400.com