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Raumfahrt - ISS-ALLtag: DRAGON RETURNS TO EARTH WITH VALUABLE RESEARCH IN TOW

2.07.2023

spx28-return-ringshear

A droplet as illuminated with red, white, and blue LEDs to study different properties of shearing.

MEDIA CREDIT: Image courtesy of Arizona State University/NASA

From testing the Zero G Kitchen Oven in space to research aimed at better understanding microgravity’s effects on telomere lengthening, multiple ISS National Lab sponsored payloads returned to Earth in June as part of SpaceX CRS-28

After 23 days docked to the International Space Station (ISS), the Dragon spacecraft supporting SpaceX’s 28th Commercial Resupply Services mission returned to Earth on June 30. The cargo capsule was packed with a host of research investigations, many of which were sponsored by the ISS National Laboratory to improve lives on Earth and enable a robust economy in low Earth orbit.

Here’s a look back at some of the science payloads that recently returned to Earth.

A project from a team of researchers at Arizona State University and Rensselaer Polytechnic Institute examined how fluids behave in microgravity. The project, which was funded by the U.S. National Science Foundation, aims to understand fluid forces that can lead to protein aggregation (clustering) during drug development. The team observed how droplets form in microgravity when experiencing shear (two forces sliding past each other). In microgravity, many processes that affect the behavior of fluids on Earth—such as convection, sedimentation, and buoyancy—are absent, allowing researchers to study fluids in ways not possible on the ground. Protein aggregation can affect the quality of pharmaceuticals, and results from this project could help improve drug development.


Protein Crystals 

spx28 return sultan pcg

UAE astronaut Sultan Al Neyadi conducts the protein crystal growth experiment on the space station.

MEDIA CREDIT: Image courtesy of NASA

An investigation from pharmaceutical company Bristol Myers Squibb (BMS) leveraged the ISS National Lab to improve the crystallization of biologic medicines, which are protein-based therapeutics derived from living cells. The sustained microgravity environment on the space station provides ideal conditions for growing high-quality protein crystals, which could allow BMS to improve the formulation and stability of therapeutics so they can be more easily injected under the skin.


Zero G Oven

spx28 return zerogoven

A view of a food sample that was heated up inside the space station's Zero G oven.

MEDIA CREDIT: Image courtesy of NASA

After nearly four years on the space station, the Zero G Kitchen Oven developed by Nanoracks returned to Earth. It was part of a technology demonstration mission to explore new methods of food production in space. The project, which launched in 2019, examined how to heat and then cool the space oven in a manner that is safe for crew members.


Improved Solar Devices

spx28 return stanford crystals

Copper inidium sulfide (CuInS2) crystals were annealed in microgravity to help reduce defects commonly found in terrestrially-grown crystals.

MEDIA CREDIT: Image courtesy of NASA

Researchers from Stanford University are aiming to improve how we power the globe by developing more energy-efficient photovoltaic devices. To do so, they annealed copper indium sulfide (CuInS2) semiconductor crystals in space to create more uniform crystals that have an even electrical conductivity. Results from this investigation could yield higher-quality crystals, which would enable the development of more efficient photovoltaic devices.


Genes in Space 10

spx28 return minipcr

Onuoha's experiment to measure teleomere lengthing in space used the station's minipcr machine to amplify DNA.

MEDIA CREDIT: Image courtesy of NASA

The latest Genes in Space™ student investigation, proposed by Pristine Onuoha, a student from East Chapel Hill High School, tested a method to measure telomere lengthening in space. Telomeres are sections of DNA that protect chromosomes from damage. Results from research on telomere lengthening could aid in the development of future therapeutics to combat the aging process in people on Earth or those living in space.

Quelle: ISS NATIONAL LABORATORY

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