{"nodes":[{"node":{"nid":"108731","title":"Secrets of microbial motion: How bacteria swash, glide and shift gears to survive","body":"New studies from Arizona State University reveal surprising ways bacteria can move without their flagella \u2014 the slender, whip-like propellers that usually drive them forward.\u0026nbsp;Movement lets bacteria form communities, spread to new places or escape from danger. Understanding how they do it can\u2026","post_date":"\u003Ctime datetime=\u00222025-11-03T09:09:29-07:00\u0022\u003E11\/03\/2025-9:09am\u003C\/time\u003E\n","clas_teaser":"New studies from ASU reveal surprising ways bacteria can move without their flagella \u2014 slender, whip-like propellers \u2014\u00a0which may help in developing new tools to fight against infections.   ","teaser":"New studies from Arizona State University reveal surprising ways bacteria can move without their flagella \u2014 the slender, whip-like propellers that usually drive them forward.\u0026nbsp;","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2025-10\/bacterial_swashing.png?itok=TOKvo7kM","path":"https:\/\/news.asu.edu\/20251103-science-and-technology-secrets-microbial-motion-how-bacteria-swash-glide-and-shift-gears","hide_byline":"0","contributor-contact-information-affiliation":"Biodesign Institute at ASU","contributor-contact-information-name":"Richard Harth","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"480-727-0378","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2025-10\/bacterial_swashing.png?itok=TOKvo7kM","image_alt":"Close-up image of bacteria.","image_caption":"Bacteria can effectively travel even without their propeller-like flagella \u2014 by \u201cswashing\u201d across moist surfaces using chemical currents, or by gliding along a built-in molecular conveyor belt. Graphic by Jason Drees\/ASU","related_story":"","news_units":"ASU Health|Biodesign Center for Fundamental and Applied Microbiomics|Biodesign Center for Mechanisms of Evolution|Center for Biological Physics|Department of Physics|Biodesign Institute|Knowledge Enterprise","interests":"Bioscience|Health care|Research","audiences":"Faculty|Community","locations":"Tempe campus","u_n_sustainable_development_goals":"SDG 03 Good Health and Well-Being","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"asu_news_article","field_saf":"Science and technology"}},{"node":{"nid":"108471","title":"ASU chemistry and physics professor elected to prestigious fellowship","body":"Steve Press\u00e9, professor in Arizona State University\u2019s\u0026nbsp;School of Molecular Sciences and\u0026nbsp;Department of Physics, has been elected as a\u0026nbsp;2025 American Physical Society Fellow for his leadership and exceptional contributions in biological physics.The APS Fellowship is one of the highest\u2026","post_date":"\u003Ctime datetime=\u00222025-10-21T13:39:38-07:00\u0022\u003E10\/21\/2025-1:39pm\u003C\/time\u003E\n","clas_teaser":"Steve Press\u00e9, professor in Arizona State University\u2019s\u00a0School of Molecular Sciences and\u00a0Department of Physics, has been elected as a\u00a02025 American Physical Society Fellow for his leadership and exceptional contributions in biological physics.","teaser":"Steve Press\u00e9, professor in Arizona State University\u2019s\u0026nbsp;School of Molecular Sciences and\u0026nbsp;Department of Physics, has been elected as a\u0026nbsp;","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2025-10\/Steve%20Presse.jpg?itok=LymH5HB7","path":"https:\/\/news.asu.edu\/b\/20251021-asu-chemistry-and-physics-professor-elected-prestigious-fellowship","hide_byline":"0","contributor-contact-information-affiliation":"School of Molecular Sciences","contributor-contact-information-name":"David Rozul","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"602-496-3673","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2025-10\/Steve%20Presse.jpg?itok=LymH5HB7","image_alt":"ASU SMS Steve Presse","image_caption":"Steve Press\u00e9, professor in Arizona State University\u2019s\u00a0School of Molecular Sciences and\u00a0Department of Physics. Courtesy photo. ","related_story":"","news_units":"Center for Biological Physics|School of Molecular Sciences|Department of Physics|The College of Liberal Arts and Sciences","interests":"","audiences":"","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"feed_only_article","field_saf":""}},{"node":{"nid":"106881","title":"Study unveils new possibility for studying biology in 3D","body":"For two decades, scientists at ASU\u2019s Center for Biological Physics have explored how physics shapes biological processes.Now, they\u2019re closer to capturing high-speed biological and soft-matter events in unprecedented detail.Douglas Shepherd, an associate professor in the\u0026nbsp;Department of Physics,\u2026","post_date":"\u003Ctime datetime=\u00222025-08-13T11:15:30-07:00\u0022\u003E08\/13\/2025-11:15am\u003C\/time\u003E\n","clas_teaser":"For two decades, scientists at ASU\u2019s Center for Biological Physics have explored how physics shapes biological processes. Now, they\u2019re closer to capturing high-speed biological and soft-matter events in unprecedented detail.","teaser":"For two decades, scientists at ASU\u2019s Center for Biological Physics have explored how physics shapes biological processes.","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2025-08\/%2369%20-%20Nikta%20Jabbarzadeh%2C%20Douglas%20Shepherd.jpg?itok=Wm5f1aW6","path":"https:\/\/news.asu.edu\/b\/20250813-study-unveils-new-possibility-studying-biology-3d","hide_byline":"0","contributor-contact-information-affiliation":"The College of Liberal Arts and Sciences","contributor-contact-information-name":"Megan Neely","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2025-08\/%2369%20-%20Nikta%20Jabbarzadeh%2C%20Douglas%20Shepherd.jpg?itok=Wm5f1aW6","image_alt":"Douglas shepard looking at a computer screen with a 3D model with purple dots and a female student sitting next to him","image_caption":"Physics PhD student Nikta Jabbarzadeh sits with Associate Professor Douglas Shepherd, looking at 3D-scale results. Photo courtesy Meghan Finnerty\/ASU","related_story":"","news_units":"Center for Biological Physics|Department of Physics|The College of Liberal Arts and Sciences","interests":"","audiences":"","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"feed_only_article","field_saf":""}},{"node":{"nid":"103370","title":"ASU researcher part of team discovering ways to fight drug-resistant bacteria","body":"A new study published in the\u0026nbsp;Science Advances journal featuring Arizona State University researchers has found vulnerabilities in certain strains of bacteria that are antibiotic resistant, just as\u0026nbsp;new projections predict deaths caused by drug-resistant infections could surge to 2 million\u2026","post_date":"\u003Ctime datetime=\u00222024-11-18T14:06:02-07:00\u0022\u003E11\/18\/2024-2:06pm\u003C\/time\u003E\n","clas_teaser":"A new study published in the Science Advances journal featuring Arizona State University researchers has found vulnerabilities in certain strains of bacteria that are antibiotic resistant, just as new projections predict deaths caused by drug-resistant infections could surge to 2 million per year by 2050.","teaser":"A new study published in the\u0026nbsp;Science Advances journal featuring Arizona State University researchers has found vulnerabilities in certain strains of bacteria that are ","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-11\/cover_0.jpeg?itok=a06LF2dK","path":"https:\/\/news.asu.edu\/20241118-science-and-technology-asu-researcher-part-team-discovering-ways-fight-drugresistant","hide_byline":"0","contributor-contact-information-affiliation":"The College of Liberal Arts and Sciences","contributor-contact-information-name":"Megan Neely","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-11\/cover_0.jpeg?itok=a06LF2dK","image_alt":"Photo of a 3D model of bacteria.","image_caption":"3D model used for the team\u0026#039;s research. Photo courtesy of Banu Ozkan","related_story":"","news_units":"Center for Biological Physics|Department of Physics|The College of Liberal Arts and Sciences","interests":"Biology|Science|Research","audiences":"Faculty|Graduate students|Staff|Students","locations":"Tempe campus","u_n_sustainable_development_goals":"SDG 03 Good Health and Well-Being|SDG 09 Industry, Innovation and Infrastructure|SDG 15 Life on Land","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"asu_news_article","field_saf":"Science and technology"}},{"node":{"nid":"103233","title":"Why do electrons flow in proteins in a single direction?","body":"Photosynthesis is the most important biological process driving the biosphere. It harnesses the energy of sunlight, and provides us with our main sources of food and fuel. The study of photosynthesis has allowed scientists not only to understand the intricacies of how organisms use light to drive\u2026","post_date":"\u003Ctime datetime=\u00222024-11-06T11:04:36-07:00\u0022\u003E11\/06\/2024-11:04am\u003C\/time\u003E\n","clas_teaser":"All biological energy comes from this process of separating charge across the biological membrane. The biological machinery either takes the energy from light or from chemical bonds of the organic food that we eat to create microscopic batteries with plus and minus charges across the lipid membrane. We are now learning that protein complexes inserted in these membranes, and serving as conduits of electron conduction, do it by slowing themselves down close to the electron\u2019s final destination. The final ``bus stop\u2019\u2019 for the electron is the longest wait.  ","teaser":"Photosynthesis is the most important biological process driving the biosphere. It harnesses the energy of sunlight, and provides us with our main sources of food and fuel.","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-11\/dmitryasuNews.jpg?itok=iVcBSW5a","path":"https:\/\/news.asu.edu\/b\/20241106-why-do-electrons-flow-proteins-single-direction","hide_byline":"0","contributor-contact-information-affiliation":"School of Molecular Sciences","contributor-contact-information-name":"Jenny Green","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"480-965-1430","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-11\/dmitryasuNews.jpg?itok=iVcBSW5a","image_alt":"Heliobacter reaction center","image_caption":"","related_story":"","news_units":"Center for Biological Physics|School of Molecular Sciences|Department of Physics|Biodesign Institute","interests":"","audiences":"","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"feed_only_article","field_saf":""}},{"node":{"nid":"100331","title":"Blueprints of self-assembly: New design technique advances nanotechnology ","body":"Many biological structures of impressive beauty and sophistication arise through processes of self-assembly. Indeed, the natural world is teeming with intricate and useful forms that come together from many constituent parts, taking advantage of the built-in features of molecules.\n\nScientists hope\u2026","post_date":"\u003Ctime datetime=\u00222024-05-16T06:39:12-07:00\u0022\u003E05\/16\/2024-6:39am\u003C\/time\u003E\n","clas_teaser":"In new research, ASU Assistant Professor Petr Sulc and his colleagues have taken a step closer to replicating nature\u2019s processes of self-assembly. Their study describes the synthetic construction of a tiny, self-assembled crystal known as a \u0026quot;pyrochlore,\u0026quot; which bears unique optical properties.\u003Cbr \/\u003E\r\n\u003Cbr \/\u003E\r\n","teaser":"Many biological structures of impressive beauty and sophistication arise through processes of self-assembly.","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-05\/25824074587_27b4e9c665_c.jpg?h=9b89b209\u0026amp;itok=vZRYyflB","path":"https:\/\/news.asu.edu\/20240516-science-and-technology-blueprints-selfassembly-new-design-technique-advances","hide_byline":"0","contributor-contact-information-affiliation":"Biodesign Institute at ASU","contributor-contact-information-name":"Richard Harth","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"480-727-0378","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-05\/25824074587_27b4e9c665_c.jpg?h=9b89b209\u0026amp;itok=vZRYyflB","image_alt":"Headshot of Petr Sulc","image_caption":"ASU Assistant Professor Petr Sulc and his team have advanced toward mimicking nature\u0026#039;s self-assembly processes. Their study details the synthetic creation of a minute, self-assembled crystal called a \u0026quot;pyrochlore,\u0026quot; which possesses unique optical properties. Courtesy photo","related_story":"","news_units":"Biodesign Center for Molecular Design and Biomimetics|Center for Biological Physics|School of Molecular Sciences|Department of Physics|Biodesign Institute","interests":"Bioscience","audiences":"Community","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"asu_news_article","field_saf":"Science and technology"}},{"node":{"nid":"99670","title":"Gates Foundation to fund research on antibiotic resistance","body":"Antibiotic resistance, what happens when germs develop the ability to defeat the drugs designed to kill them, is a growing concern among scientists today.\n\nWhen bacteria become resistant to antibiotics, common infections can be harder or impossible to treat, leading to longer illnesses, more severe\u2026","post_date":"\u003Ctime datetime=\u00222024-03-29T12:52:55-07:00\u0022\u003E03\/29\/2024-12:52pm\u003C\/time\u003E\n","clas_teaser":"Using a combination of theoretical and experimental techniques, Arizona State University Department of Physics Professor Banu Ozkan and a team of researchers have been working to find new ways to cope with bacterial infections.","teaser":"Antibiotic resistance, what happens when germs develop the ability to defeat the drugs designed to kill them, is a growing concern among scientists today.","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-03\/all_wt_copy.png?itok=40uw5xxU","path":"https:\/\/news.asu.edu\/20240329-health-and-medicine-gates-foundation-fund-research-antibiotic-resistance","hide_byline":"1","contributor-contact-information-affiliation":"","contributor-contact-information-name":"","contributor-contact-information-e-mail":"","contributor-contact-information-phone_number":"","contributor-contact-information-campus":"","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-03\/all_wt_copy.png?itok=40uw5xxU","image_alt":"A pile of squiggly lines in rainbow colors representing ribosomes and proteins.","image_caption":"ASU Professor Banu Ozkan is working on a team of researchers who aim to find alternative pathways to address the urgent need for new antibiotics. Ozkan\u0026#039;s contribution to the research project focuses on understanding the dynamics of ribosomes in dormant bacteria. Illustration courtesy Banu Ozkan","related_story":"","news_units":"Center for Biological Physics|Department of Physics|The College of Liberal Arts and Sciences","interests":"Grants \/ Awards|Biology|Health care|Research","audiences":"Alumni|Donors|Faculty|Graduate students|Community|Students","locations":"Tempe campus","u_n_sustainable_development_goals":"SDG 03 Good Health and Well-Being","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"asu_news_article","field_saf":"Health and medicine"}},{"node":{"nid":"99507","title":"ASU center elevates biophysics awareness during National Biophysics Week","body":"At the forefront of scientific discovery, the Center for Biological Physics at Arizona State University brings together experts from biology, physics, health, chemistry and engineering to advance biological physics research.\n\n\u201cWe have the largest collection of talent at this interface of physical\u2026","post_date":"\u003Ctime datetime=\u00222024-03-18T19:48:16-07:00\u0022\u003E03\/18\/2024-7:48pm\u003C\/time\u003E\n","clas_teaser":"At the forefront of scientific discovery, the Center for Biological Physics at Arizona State University brings together experts from biology, physics, health, chemistry and engineering to advance biological physics research. In celebration of National Biophysics Week, faculty and student researchers share about the center\u0026#039;s work and impact.","teaser":"At the forefront of scientific discovery, the Center for Biological Physics at Arizona State University brings together experts from biology, physics, health, chemistry and engineering to advance biological physi","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-03\/heyden_image_2.jpg?itok=VpZIrMX8","path":"https:\/\/news.asu.edu\/20240319-science-and-technology-asu-center-elevates-biophysics-awareness-during-national-biophysics","hide_byline":"0","contributor-contact-information-affiliation":"The College of Liberal Arts and Sciences","contributor-contact-information-name":"Stephen Perez","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-03\/heyden_image_2.jpg?itok=VpZIrMX8","image_alt":"Graphic illustration of an organism\u0026#039;s molecular makeup.","image_caption":"Illustration courtesy the Center for Biological Physics","related_story":"","news_units":"Center for Biological Physics|The College of Liberal Arts and Sciences","interests":"Innovation|Biology|Life Science|Science|Research","audiences":"Faculty|Graduate students|Staff|Prospective students|Students","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"asu_news_article","field_saf":"Science and technology"}},{"node":{"nid":"99340","title":"NSF CAREER grant funds ASU physics professor\u2019s research on integrin structure","body":"Understanding integrins is essential for comprehending fundamental biological processes and various diseases, including cancer. For his innovative research on integrin structure under tension, Arizona State University Assistant Professor Rizal Hariadi has received a Faculty Early Career Development\u2026","post_date":"\u003Ctime datetime=\u00222024-03-04T10:01:09-07:00\u0022\u003E03\/04\/2024-10:01am\u003C\/time\u003E\n","clas_teaser":"For his innovative research on integrin structure under tension, Arizona State University Assistant Professor Rizal Hariadi has received a Faculty Early Career Development (CAREER) Award from the National Science Foundation.","teaser":"Understanding integrins is essential for comprehending fundamental biological processes and various diseases, including cancer.","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-02\/240123-cmdb-rizallab-004_1.jpg?itok=XFMKmTG3","path":"https:\/\/news.asu.edu\/20240304-science-and-technology-nsf-career-grant-funds-asu-physics-professors-research-integrin","hide_byline":"0","contributor-contact-information-affiliation":"The College of Liberal Arts and Sciences","contributor-contact-information-name":"Stephen Perez","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/2024-02\/240123-cmdb-rizallab-004_1.jpg?itok=XFMKmTG3","image_alt":"Group of people wearing the same shirt pose for a photo in front of a staircase.","image_caption":"Assistant Professor Rizal Hariadi (bottom row, far right) with students from his physics lab. Courtesy photo","related_story":"","news_units":"Center for Biological Physics|Department of Physics|Biodesign Institute|The College of Liberal Arts and Sciences","interests":"Grants \/ Awards|Undergraduate research|Academics|Research","audiences":"Faculty|Prospective students|Students","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"asu_news_article","field_saf":"Science and technology"}},{"node":{"nid":"98070","title":"Professor receives NIH grant to investigate relationship between protein structure, health issues","body":"Proteins are\u0026nbsp;very large molecules containing many amino acid residues linked together in specific sequence. They live in our bodies, in our cells, and encode function through their chemical composition and sequence.\u0026nbsp;It is now well accepted that structured, governed dynamics modulate\u2026","post_date":"\u003Ctime datetime=\u00222023-12-07T12:29:00-07:00\u0022\u003E12\/07\/2023-12:29pm\u003C\/time\u003E\n","clas_teaser":"It is now well accepted that structured, governed dynamics of proteins modulate function, yet scientists still don\u2019t know how a few changes in sequence, such as mutations, modify dynamics to alter function. ASU Assistant Professor Eleni Panagiotou has been awarded an interdisciplinary grant from the National Institutes of Health to find out, which could help treat diseases, create new vaccines and possibly even prevent some diseases.","teaser":"Proteins are\u0026nbsp;very large molecules containing many amino acid residues linked together in specific sequence.","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/eleni-panagiotou-asu-math-03.png?itok=2G1Jfo-H","path":"https:\/\/news.asu.edu\/20231205-innovative-nih-grant-combines-new-mathematical-tools-applied-molecular-dynamics-approach","hide_byline":"0","contributor-contact-information-affiliation":"School of Mathematical and Statistical Sciences","contributor-contact-information-name":"Rhonda Olson","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"480-727-2468","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/eleni-panagiotou-asu-math-03.png?itok=2G1Jfo-H","image_alt":"Portrait of ASU Assistant Professor Eleni Panagiotou.","image_caption":"Eleni Panagiotou","related_story":"","news_units":"Center for Biological Physics|John Shufeldt School of Medicine and Medical Engineering|School of Mathematical and Statistical Sciences|Department of Physics|The College of Liberal Arts and Sciences","interests":"Grants \/ Awards|Healthy Living|Bioscience|COVID-19 research and resources|Research","audiences":"Donors|Faculty|Graduate students|Community|Prospective students","locations":"Tempe campus","u_n_sustainable_development_goals":"SDG 03 Good Health and Well-Being|SDG 15 Life on Land","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"news","field_saf":"Science and technology"}},{"node":{"nid":"97987","title":"ASU ranks in top 5 for inventions, patents, patent deals and startups","body":"Editor\u2019s note:\u0026nbsp;This story is featured in the\u0026nbsp;2023 year in review.\n\nArizona State University ranked among the top five research institutions without a medical school for the first time in fiscal year 2022 for inventions disclosed, U.S. patents secured, patent licenses and option deals\u2026","post_date":"\u003Ctime datetime=\u00222023-11-27T11:24:42-07:00\u0022\u003E11\/27\/2023-11:24am\u003C\/time\u003E\n","clas_teaser":"Arizona State University ranked among the top five research institutions without a medical school for the first time in fiscal year 2022 for inventions disclosed, U.S. patents secured, patent licenses and option deals closed, and startups launched, according to the latest survey by the Association of University Technology Managers.","teaser":"Editor\u2019s note:\u0026nbsp;This story is featured in the\u0026nbsp;2023 y","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/asusolar-panels.jpg?itok=tQmhi5pA","path":"https:\/\/news.asu.edu\/20231127-entrepreneurship-asu-ranks-top-5-inventions-patents-patent-deals-and-startups","hide_byline":"0","contributor-contact-information-affiliation":"ASU Enterprise Partners","contributor-contact-information-name":"Michelle Stermole","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"480-727-7402","contributor-contact-information-campus":"","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/asusolar-panels.jpg?itok=tQmhi5pA","image_alt":"A field of solar panels","image_caption":"","related_story":"","news_units":"Biodesign Center for Molecular Design and Biomimetics|Center for Biological Physics|Skysong Innovations|School of Electrical, Computer, and Energy Engineering|Biodesign Institute|Knowledge Enterprise","interests":"Entrepreneurship|Technology|Research","audiences":"Faculty","locations":"","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"asu_news_article","field_saf":"Science and technology"}},{"node":{"nid":"96975","title":"NSF grant allows ASU researchers to develop streaming technologies for molecular simulations","body":"Matthias Heyden, assistant professor in the School of Molecular Sciences at Arizona State University, has been awarded $600,000 by the National Science Foundation as principal investigator, along with Oliver Beckstein as co-principal investigator, to develop a software platform that simplifies the\u2026","post_date":"\u003Ctime datetime=\u00222023-08-03T12:13:00-07:00\u0022\u003E08\/03\/2023-12:13pm\u003C\/time\u003E\n","clas_teaser":"Matthias Heyden of ASU\u0026#039;s School of Molecular Sciences and Oliver Beckstein of the Department of Physics have been awarded a grant to develop a computational platform that maximizes the information output and utility of molecular simulations. ","teaser":"Matthias Heyden, assistant professor in the School of Molecular Sciences at Arizona State University, has been awarded $600,000 by the National Science Foundation as principal investigator, alon","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/press-release_figure.png?itok=ehkoh_PL","path":"https:\/\/news.asu.edu\/20230803-600000-nsf-grant-allows-asu-researchers-develop-streaming-technologies-molecular","hide_byline":"0","contributor-contact-information-affiliation":"School of Molecular Sciences","contributor-contact-information-name":"James Klemaszewski","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"480-965-2729","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/press-release_figure.png?itok=ehkoh_PL","image_alt":"Diagram showing streaming analysis pathway","image_caption":"Diagram showing streaming analysis pathway. Image courtesy Matthias Heyden","related_story":"","news_units":"Center for Biological Physics|School of Molecular Sciences|Department of Physics|The College of Liberal Arts and Sciences","interests":"Science|Academics","audiences":"Faculty|Postdocs","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"news","field_saf":"Science and technology"}},{"node":{"nid":"96839","title":"5 ASU faculty receive NSF CAREER awards","body":"Researchers at Arizona State University have earned five National Science Foundation early career awards in the last year. The new awards total $2.8 million in funding for ASU researchers in grants that will be used over five years.The awards show the scope of research being undertaken at ASU and\u2026","post_date":"\u003Ctime datetime=\u00222023-07-10T11:07:00-07:00\u0022\u003E07\/10\/2023-11:07am\u003C\/time\u003E\n","clas_teaser":"Five ASU researchers have earned National Science Foundation early career awards in the last year, representing $2.8 million in funding that will be used over five years. ","teaser":"Researchers at Arizona State University have earned five National Science Foundation early career awards in the last year.","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/20220202tempecampuschartersign_020.jpg?itok=CrR5D9E6","path":"https:\/\/news.asu.edu\/20230710-university-news-five-asu-faculty-receive-nsf-career-awards","hide_byline":"0","contributor-contact-information-affiliation":"School of Molecular Sciences","contributor-contact-information-name":"David Rozul","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"602-496-3673","contributor-contact-information-campus":"Tempe campus, Polytechnic campus, Downtown Phoenix campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/20220202tempecampuschartersign_020.jpg?itok=CrR5D9E6","image_alt":"","image_caption":"","related_story":"","news_units":"Biodesign Center for Molecular Design and Biomimetics|Center for Biological Physics|School of Criminology and Criminal Justice|School for Engineering of Matter, Transport and Energy|The Polytechnic School|School of Sustainable Engineering and the Built Environment|School of Molecular Sciences|Ira A. Fulton Schools of Engineering|Biodesign Institute|The College of Liberal Arts and Sciences|Watts College of Public Service and Community Solutions","interests":"Grants \/ Awards|Science|Research","audiences":"Faculty","locations":"Downtown Phoenix campus|Polytechnic campus|Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"asu_news_article","field_saf":"Science and technology"}},{"node":{"nid":"96765","title":"ASU researchers pioneer technique to study Brownian motion at micro scale","body":"A group of biophysicists at Arizona State University developed a new, innovative way to study the fundamental properties of the propellers that microscopic organisms use to move.\u0026nbsp;Peter Brown, Franky Djuanta, Rizal Fajar Hariadi and Douglas Shepherd with the Center for Biological Physics and\u2026","post_date":"\u003Ctime datetime=\u00222023-06-28T10:04:00-07:00\u0022\u003E06\/28\/2023-10:04am\u003C\/time\u003E\n","clas_teaser":"A group of biophysicists at Arizona State University developed a new, innovative way to study the fundamental properties of the propellers that microscopic organisms use to move, or Brownian motion. The team\u2019s new approach has the potential to advance the field by enabling researchers to measure actual biological propellers, improving on prior approaches developed by Albert Einstein.","teaser":"A group of biophysicists at Arizona State University developed a new, innovative way to study the fundamental properties of the propellers that microscopic organisms use to move.\u0026nbsp;","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/cover_image_suggestion_version2.jpg?itok=9u3EtbqS","path":"https:\/\/news.asu.edu\/20230628-asu-researchers-pioneer-new-technique-study-brownian-motion-micro-scale","hide_byline":"0","contributor-contact-information-affiliation":"The College of Liberal Arts and Sciences","contributor-contact-information-name":"Stephen Perez","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/cover_image_suggestion_version2.jpg?itok=9u3EtbqS","image_alt":"Image of microscopic organisms.","image_caption":"A group of biophysicists at Arizona State University developed a new, innovative way to study the fundamental properties of the propellers that microscopic organisms use to move. Photo courtesy Alexy Chizhik","related_story":"","news_units":"Center for Biological Physics|Department of Physics|The College of Liberal Arts and Sciences","interests":"Bioscience|Science|Academics|Research","audiences":"Faculty|Staff|Students","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"news","field_saf":"Science and technology"}},{"node":{"nid":"96495","title":"Researcher wins $2.6M NIH grant for machine-learning tools aimed at molecular interactions","body":"Cells are more than just bags of molecules. They are complex and dynamic environments with frequent molecular interactions orchestrating life\u2019s most basic events. Many researchers investigate molecules by monitoring them outside their natural environments, sometimes in crystals, or simulating them\u2026","post_date":"\u003Ctime datetime=\u00222023-05-16T11:58:00-07:00\u0022\u003E05\/16\/2023-11:58am\u003C\/time\u003E\n","clas_teaser":"Steve Press\u00e9, a faculty member of Arizona State University\u0026#039;s Center for Biological Physics and the School of Molecular Sciences, along with a team of collaborators around the world, is unraveling life\u2019s intracellular processes at single-molecule levels on the rapid time scales and small spatial scales at which reactions and interactions occur. Press\u00e9 was recently awarded a five-year, $2.6 million grant from the National Institutes of Health to help develop the machine-learning tools needed to observe life\u2019s events in their natural environment.\u003Cbr \/\u003E\r\n","teaser":"Cells are more than just bags of molecules. They are complex and dynamic environments with frequent molecular interactions orchestrating life\u2019s most basic events.","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/steve.jpg?itok=_39GxJz6","path":"https:\/\/news.asu.edu\/20230516-researcher-receives-nih-grant-develop-machine-learning-tools-studying-lifes-processes","hide_byline":"0","contributor-contact-information-affiliation":"School of Molecular Sciences","contributor-contact-information-name":"James Klemaszewski","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"480-965-2729","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/steve.jpg?itok=_39GxJz6","image_alt":"Blue, red and green abstract image.","image_caption":"Press\u00e9 et al molecular modeling image. Used on cover of Biophysical Reports journal on March 8, 2023.","related_story":"","news_units":"Center for Biological Physics|School of Molecular Sciences|The College of Liberal Arts and Sciences","interests":"Grants \/ Awards|Bioscience|Academics","audiences":"Faculty","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"news","field_saf":"Science and technology"}},{"node":{"nid":"95867","title":"Heavy water key to \u0027groundbreaking work\u0027 on electron transfer in proteins by ASU professor","body":"Arizona State University\u2019s Dmitry Matyushov, professor in the\u0026nbsp;School of Molecular Sciences\u0026nbsp;and the Department of Physics, has spent years studying how electrons make their way through some important protein molecules.He recently published results from computer simulations that show that\u2026","post_date":"\u003Ctime datetime=\u00222023-03-31T13:57:00-07:00\u0022\u003E03\/31\/2023-1:57pm\u003C\/time\u003E\n","clas_teaser":"Dmitry Matyushov, professor in ASU\u0026#039;s School of Molecular Sciences and the Department of Physics, has spent years studying how electrons make their way through some important protein molecules. He has just published results from recent computer simulations that show the rate of electron hops within proteins is determined not by the rate of electron tunneling but by the rate of the protein changing its configuration to make tunneling possible.\u003Cbr \/\u003E\r\n","teaser":"Arizona State University\u2019s Dmitry Matyushov, professor in the\u0026nbsp;School of Molecular Sciences\u0026nbsp;and the Department of Physics, has spent years studying how","story_images":"","hero_image":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/dmitry_cover51.jpg?itok=6aCo76Wc","path":"https:\/\/news.asu.edu\/20230331-heavy-water-affects-electron-transfer-proteins","hide_byline":"0","contributor-contact-information-affiliation":"School of Molecular Sciences","contributor-contact-information-name":"Jenny Green","contributor-contact-information-e-mail":"{{ mail }}","contributor-contact-information-phone_number":"480-965-1430","contributor-contact-information-campus":"Tempe campus","feed_image_link":"","image_url":"https:\/\/news.asu.edu\/sites\/default\/files\/styles\/block_image_16_9_lge\/public\/dmitry_cover51.jpg?itok=6aCo76Wc","image_alt":"Photo of Dmitry Matyushov photoshopped next to a graph.","image_caption":"Dmitry Matyushov, professor in the School of Molecular Sciences and the Department of Physics. ","related_story":"","news_units":"Biodesign Center for Single Molecule Biophysics|Center for Biological Physics|School of Molecular Sciences|Department of Physics|The College of Liberal Arts and Sciences","interests":"Science|Research","audiences":"Faculty|Graduate students","locations":"Tempe campus","u_n_sustainable_development_goals":"","field_feed_herberger":"","field_feed_nursing":"","field_feed_knowledge_enterprise":"","content_type":"news","field_saf":"Science and technology"}}]}