White House Science Council receives new member: Institute Professor Paula Hammond
Let's chat about Paula Hammond, a science whiz at MIT!
The White House has announced that Paula Hammond, a spectacular chemical engineer and MIT professor, will be joining the President's Council of Advisors on Science and Technology (PCAST). This council offers advisement on matters involving science, technology, education, and innovation policy for the president. Paula, being passionate about how science can address major societal issues, remarked that this opportunity is "very meaningful for me."
She is one of 30 members on the council, led by Eric Lander, the President's Science Advisor, and others. MIT's vice president for research, Maria Zuber, expressed her admiration for Paula's skills as an engineer, teacher, and colleague, and her eagerness for Paula's input in tackling challenges related to science and technology policies and improving lives across the U.S.
Paula's research area intertwines with both medicine and energy, holding promising solutions for critical issues like access to healthcare and mitigating climate change. Focusing on creating novel polymers and nanomaterials, she has designed drug-delivering nanoparticles that target tumors, as well as polymer films that boost the efficiency of methanol fuel cells.
As an MIT faculty member, she has aimed to enhance opportunities for underrepresented minorities in the science and engineering fields, a goal she wants to carry forward in her new role. With a focus on addressing the low numbers of students of color venturing into these fields, she believes it's essential to promote excellence, gain a diverse perspective, and work on the right problems, all while ensuring broad access to the power that science brings.
Hammond has earned numerous accolades, including being named an Institute Professor, MIT's highest faculty honor, and being among the few people elected to all three National Academies - Engineering, Science, and Medicine.
In her research, she has contributed to drug delivery, noninvasive imaging, solar cells, and battery technology. She employs the layer-by-layer (LbL) assembly technique to create multilayered nanoparticles for targeted drug delivery, adaptable drug carriers, and microenvironment-responsive systems. This unique approach supports precision in drug delivery, improves treatment efficacy, and minimizes damage to healthy tissues.
In the realm of noninvasive imaging, her research has led to the creation of fluorescent probes and diagnostic nanoparticles that aid in the early detection and monitoring of tumors. By developing platforms that integrate diagnostic and therapeutic functions, she enables real-time monitoring of treatment progress.
Though Hammond's primary expertise lies in drug delivery and battery materials, she has also contributed to broader materials science research that can inform efficient, flexible, and lightweight energy materials, like those used in solar cells. In the field of battery technology, she has created materials that improve battery performance, safety, and lifespan.
With her revolutionary ideas and enthusiasm, Paula Hammond is undoubtedly destined to leave a lasting impact on the world through science and technology! 🎖️🚀🚀🚀
- The White House's announcement has welcomed Paula Hammond, a prominent MIT professor in science and technology, to the President's Council of Advisors on Science and Technology (PCAST).
- The council, led by Eric Lander, will benefit from Hammond's expertise on matters of science, technology, education, and innovation policy.
- Hammond is thrilled about this opportunity, calling it "very meaningful".
- Alongside 29 other members, Hammond will work to improve lives across the US.
- Hammond's research focuses on creating novel polymers and nanomaterials, with applications in both medicine and energy.
- Her research holds the potential for solutions in critical issues like access to healthcare and mitigating the effects of climate change.
- Hammond has designed drug-delivering nanoparticles that target tumors and polymer films that boost the efficiency of methanol fuel cells.
- As an MIT faculty member, Hammond has advocated for opportunities for underrepresented minorities in science and engineering.
- Hammond's goal is to ensure broad access to the power that science brings while promoting excellence and gaining diverse perspectives.
- Hammond has been recognized with numerous accolades, including MIT's highest faculty honor, Institute Professor.
- She is among the few people elected to all three National Academies - Engineering, Science, and Medicine.
- In her research, Hammond has contributed to drug delivery, noninvasive imaging, solar cells, and battery technology.
- She employs the layer-by-layer (LbL) assembly technique to create multilayered nanoparticles for targeted drug delivery and adaptable drug carriers.
- Early detection and monitoring of tumors is made possible through her creation of fluorescent probes and diagnostic nanoparticles.
- By developing platforms that integrate diagnostic and therapeutic functions, Hammond enables real-time monitoring of treatment progress.
- Hammond's primary expertise lies in drug delivery and battery materials, but she has also contributed to broader materials science research.
- Efficient, flexible, and lightweight energy materials, like those used in solar cells, can be informed by her research.
- Hammond has created materials that improve battery performance, safety, and lifespan in the field of battery technology.
- Paula Hammond's revolutionary ideas make her well-positioned to leave a lasting impact on the world through science and technology.
- With her addition to the council, PCAST will gain valuable insights on workplace-wellness and the effects of medical conditions like chronic diseases, cancer, respiratory conditions, digestive health, eye health, and hearing.
- Hammond's research also touches on health-and-wellness, fitness-and-exercise, and mental-health, providing essential information on therapies-and-treatments and nutrition.
- In the realm of cardiovascular health, her research can address issues related to heart disease and Medicaid policy.
- EU legislation on healthcare and education, like medicare and neurological-disorders, may be impacted by Hammond's expertise.
- Skin-conditions, autoimmune-disorders, and personal-growth, including self-development, career development, and learning, are all areas where Hammond's research will contribute valuable knowledge.
- Sports-related health issues, such as those found in football players, can benefit from Hammond's research on treating and preventing sports injuries, as well as her insights on sports-betting, European leagues, and sports-analysis in the weather forecasts.
