News by Subject Chemistry & Physics

News Release 2-Jul-2020

Fluorine enables separation-free 'chiral chromatographic analysis'

Chinese Academy of Sciences Headquarters

Researchers from the Shanghai Institute of Organic Chemistry of the Chinese Academy of Sciences recently developed a new platform for rapid chiral analysis, producing chromatogram-like output without the need for separation.

Journal: Cell Reports Physical Science
Funder: National Natural Science Foundation of China and the CAS Key Laboratory of Organofluorine Chemistry

News Release 1-Jul-2020

New plastic biomaterials could lead to tougher, more versatile medical implants

University of Birmingham

A new thermoplastic biomaterial, which is tough and strong but also easy to process and shape has been developed by researchers at the University of Birmingham.

Journal: Nature Communications

News Release 30-Jun-2020

New materials of perovskite challenge the chemical intuition

Institute of Physics, Chinese Academy of Sciences

Materials scientists have synthesized a new type of perovskite--one of the most common crystal structures of materials deployed for a range of uses, from superconductors to photovoltaics--that goes against conventional thinking about how such structures behave at extreme pressures such as those that exist deep in the Earth.

Journal: Angewadte Chemie International Edition

News Release 30-Jun-2020

World's widest graphene nanoribbon promises the next generation of miniaturized electronics

Nara Institute of Science and Technology

Standard semiconductor technology is reaching its limit in miniaturization, but the demand for smaller electrical devices with higher performance continues to grow. The research group introduced the widest graphene nanoribbon prepared by the bottom-up approach with electrical properties surpassing those of silicon semiconductors, promising a new generation of miniaturized electronic devices.

Journal: Communications Materials

News Release 29-Jun-2020

Understanding of relaxor ferroelectric properties could lead to many advances

Penn State

A new fundamental understanding of polymeric relaxor ferroelectric behavior could lead to advances in flexible electronics, actuators and transducers, energy storage, piezoelectric sensors and electrocaloric cooling, according to a team of researchers at Penn State and North Carolina State.

Journal: Nature Materials
Funder: US Air Force Office of Scientific Research, US Office of Naval Research Office, National Science Foundation

News Release 29-Jun-2020

Multifunctional nanofiber protects against explosions

Harvard John A. Paulson School of Engineering and Applied Sciences

Harvard University researchers, in collaboration with the US Army Combat Capabilities Development Command Soldier Center (CCDC SC) and West Point, have developed a lightweight, multifunctional nanofiber material that can protect wearers from both extreme temperatures and ballistic threats.

Journal: Matter
Funder: Harvard Materials Research Science and Engineering Center under the National Science Foundation

News Release 26-Jun-2020

Development of safe liver sinusoid coating agents to increase the efficacy of gene therapy

Innovation Center of NanoMedicine

A new technology to improve the efficacy and safety of gene therapy drugs was developed. A transient, selective, and safe coating of the liver sinusoidal wall was achieved. As a result, the clearance of gene therapy drugs was effectively prevented. Consequently, the gene transfer efficiency into cardiac muscle, skeletal muscle, and cancer tissue was boosted. This research will be published in Science Advances (IF = 12.804) on June 26 (EST).

Journal: Science Advances
Funder: Japan Science and Technology Agency

News Release 26-Jun-2020

IO hybrid adsorbent to remove hazardous Cadmium(II) from wastewater

World Scientific

In a paper published in NANO, a group of researchers from Hebei University of Technology, Tianjin, China have discovered an effective way to remove heavy metal Cadmium(II) from wastewater. This utilizes the surface-initiated atom-transfer radical polymerization (SI-ATRP) method to graft poly (tert-butyl acrylate) PtBA from the ultrathin pore wall of inverse opal (IO) SiO₂.

Journal: Nano
Funder: National Natural Science Foundation of China, Natural Science Foundation of Hebei Province

News Release 24-Jun-2020

Researchers sharply reduce time needed for glass and ceramic 3D printing

Yokohama National University

The fabrication of complex ceramic or glass structures via stereolithography, a type of 3D printing, has long been held back by how much time it takes at the back-end of the process, which can take up to two days. A new technique reduces this time down to less than 5 hours.

Journal: Communications Materials
Funder: JSPS KAKENHI

News Release 24-Jun-2020

Growing polymers with different lengths

ETH Zurich

ETH researchers have developed a new method for producing polymers with different lengths. This paves the way for new classes of polymer materials to be used in previously inconceivable applications.

Journal: Chem

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