Press - Jia Liu Group

2020

Tracking Down Unhealthy Heart Rhythms: Introducing the Elastrode. Stanford Medicine, Sept 14, 2020.

Elektrische Heilkunst auf Zellebene. Frankfurter Allgemeine, April 3, 2020.

Ces cellules reprogrammées construisent des structures artificielles. Futura-Sciences, March 25, 2020.

Ces cellules reprogrammées construisent des structures artificielles. Yahoo! News, March 25, 2020.

Scientists alter cell function with genetic engineering, polymer science. Scienceboard.net, March 24, 2020.

Method reprograms cells to build stuff on brain cells. Futurity, March 23, 2020.

Method genetically reprograms cells to build artificial structures. Technology Networks, March 23, 2020.

Harnessing cells to build functional materials. Chemical & Engineering News, March 21, 2020.

Nerve to implant, someday. Genome Web, March 20, 2020.

Scientists reprogram cells to carry out functions inside the body. Interesting Engineering, March 20, 2020.

Genetically modified neurons could enhance function of clinical implants. The Medical News, March 20, 2020.

Researchers reprogram cells to build artificial structures.  ZME Science, March 20, 2020.

Genetically manipulating cells using synthetic materials to construct artificial structures. AZO Life Sciences, March 20, 2020.

I primi neuroni geneticamente modificati e controllati elettricamente. La Repubblica,  March 20, 2020.

Genetically modified neurons could help us connect to implants. New Scientist, March 19, 2020.

Scientists program cells to carry out gene-guided construction projects. Science Daily, March 19, 2020.

"Living Materials" study hints at a future with bioelectronic medicine. Inverse, March 19, 2020

Scientists program cells to carry out gene-guided constructions projects. Phys.org, March 19, 2020.

 

2019

Cyborg heart could help scientists better understand the human organ. Acs.org, August 21, 2019.

Cyborg heart could help scientists better understand the human organ. Nanotechnology Now, August 21, 2019.

Uncovering how cells become organs. The Harvard Gazette, August 16, 2019.

Cyborg organoids offer rare view into early stages of development. Phys.org, August 9, 2019.

Cyborg organoids offer rare view into early stages of development. Stretchable, integrated mesh electronics grow with the developing cells.  ScienceDaily.com, August 9, 2019.

Cyborg organoids with built-in sensors will watch our brains grow.  Siliconrepublic.com, August 12, 2019.

Cyborg organoids offer a rare glimpse into the early states of organ development.  Nanowerk.com, August 9, 2019.

Cyborg organoid gif. Eurekalert.org.

Harvard team grows cyborg mini-organs out of stem cells.  Newatlas.com, August 12, 2019.

Cyborg organoids reveal early stages of organ development. Weatherherald.com, August 12, 2019.

Cyborg organoids offer rare view into early stages of development. Harvard University School of Engineering and Applied Sciences, August 8, 2019.