Researchers at the RIKEN Center for Emergent Matter Science, in collaboration with the University of Tokyo, have developed a groundbreaking biodegradable plastic that offers a dual benefit: it dissolves in seawater and enriches soil.

This innovation was led by Dr. Takashi Nishikawa and his team in Japan, and it represents a major step forward in addressing plastic pollution while also supporting agricultural sustainability.

The plastic is made using a novel combination of sodium hexametaphosphate, a food-safe additive, and guanidinium-based monomers.

These components create salt bridges that hold the plastic’s structure together until exposed to seawater.

Once submerged, the material begins dissolving within hours, leaving behind no microplastic residue. In soil, it breaks down completely in about ten days and releases nutrients like phosphorus and nitrogen, which are key to promoting plant growth and boosting soil fertility.

What makes this material particularly promising is its non-toxic, non-flammable, and carbon-neutral decomposition process. Unlike conventional plastics, it contributes positively to the environment rather than causing harm.

In tests, up to 91% of the additive compounds and 82% of the monomers could be recovered and reused, aligning with the principles of a circular economy.

The plastic’s versatility opens the door to a wide range of applications. In agriculture, it can be used for biodegradable mulch films and seed coatings.

In marine environments, it offers a sustainable alternative for fishing nets and ropes that would otherwise contribute to “ghost gear” pollution.

It also holds promise for consumer products such as food containers, disposable cutlery, and eco-friendly packaging.

This innovation by Japanese scientists could significantly reduce global plastic waste and usher in a new era of biodegradable, recyclable, and nutrient-rich materials, with real potential to transform both environmental cleanup efforts and sustainable farming practices.

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Romance novel they call it

South Korean researchers at KAIST have unveiled a breakthrough approach that could transform cancer treatment—by turning colon cancer cells back into healthy ones.
Leveraging digital twin technology, the team mapped a virtual gene network to identify “master regulator genes” responsible for the cancerous transformation. Unlike conventional treatments that aim to destroy cancer cells, this novel method reprograms them—restoring normal function rather than causing cell death.

This technique not only holds potential for colon cancer but could also be applied to other cancer types, reducing the toxic side effects of chemotherapy and offering a universal, targeted strategy. It marks a major step toward treating cancer as a reversible condition rather than a terminal disease.

#CancerBreakthrough #DigitalTwinMedicine #KAIST #KoreanScience #MedicalInnovation

Researchers at the Korea Advanced Institute of Science and Technology (KAIST) have developed a novel method called “cancer reversion therapy”.

Unlike traditional therapies that destroy cancer cells, this method reprograms cancerous cells into normal-like cells.

They identified three key molecules—MYB, HDAC2, and FOXA2—as master regulators of cancer cell behavior.

Using digital twin modeling (a simulation technique that mimics real biological systems), scientists validated their approach before confirming its effectiveness through lab experiments in mice.

This strategy shows promise in reducing side effects and may be applicable beyond colon cancer, potentially transforming treatments for multiple cancer types.