Asia Research News 2021

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ENVIRONMENT Credit: Curtis Palmer via Wikimedia Commons

Did you know?

An estimated 50 million tons of e-waste are produced annually.

BRINGING THE GREEN REVOLUTION TO ELECTRONICS From biomemory to implants, researchers are looking for ways to make more eco-friendly electronic components.

ASIA RE SEA RC H N EWS

Researchers are investigating how to make electronic components from eco-friendly, biodegradable materials to help address a growing public health and environmental problem: around 50 million tons of electronic waste are produced every year. Less than 20% of the e-waste we produce is formally recycled. Much of the rest ends up in landfills, contaminating soil and groundwater, or is informally recycled, exposing workers to hazardous substances like mercury, lead and cadmium. Improper e-waste management also leads to a significant loss of scarce and valuable raw materials, like gold, platinum and cobalt. According to a UN report, there is 100 times more gold in a ton of e-waste than in a ton of gold ore. While natural biomaterials are flexible, cheap and biocompatible, they do not conduct an electric current very well. Researchers are exploring combinations with other materials to form viable biocomposite electronics, explain Ye Zhou

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of China’s Shenzhen University and colleagues in the journal Science and Technology of Advanced Materials. The scientists expect that including biocomposite materials in the design of electronic devices could lead to vast cost saving, open the door for new types of electronics due to the unique material properties, and find applications in implantable electronics due to their biodegradability. For example, there is widespread interest in developing organic field effect transistors (FET), which use an electric field to control the flow of electric current and could be used in sensors and flexible flat-panel displays. Flash memory devices and biosensor components made with biocomposites are also being studied. For example, one FET biosensor incorporated a calmodulin-modified nanowire transistor. Calmodulin is an acidic protein that can bind to different molecules, so the biosensor could be used for detecting calcium ions.

Further Dr Ye Zhou | yezhou@szu.edu.cn information Institute for Advanced Study Shenzhen University

Researchers are especially keen to find biocomposite materials that work well in resistive random access memory (RRAM) devices. These devices have non-volatile memory: they can continue to store data even after the power is switched off. Biocomposite materials are used for the insulating layer that is sandwiched between two conductive layers. Researchers have experimented with dispersing different types of nanoparticles and quantum dots within natural materials, such as silk, gelatine and chitosan, to improve electron transfer. An RRAM made with cetyltrimethylammonium-treated DNA embedded with silver nanoparticles has also shown excellent performance. “We believe that functional devices made with these fascinating materials will become promising candidates for commercial applications in the near future with the development of materials science and advances in device manufacturing and optimization technology,” the researchers conclude.

Dr Yoshikazu Shinohara | shinohara.yoshikazu@nims.go.jp Science and Technology of Advanced Materials National Institute for Materials Science


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Articles inside

COVID-19: OUR COMMUNITY ON THE FRONT LINES OF RESEARCH

8min
pages 50-53

Welcome to the 2021 edition of Asia Research News

1min
page 5

GIANTS IN HISTORY

4min
pages 48-49

ELEVATING WOMEN LEADERS IN MYANMAR

7min
pages 44-47

見えない生態系が残した物語を紡ぐ

1min
pages 42-43

地球の底から、惑星誕生の謎に迫る

1min
pages 40-41

EARLY EARTH DROPLETS AND THE ORIGINS OF LIFE

4min
pages 36-37

ATMOSPHERIC TIDAL WAVES MAINTAIN VENUS’S SUPER-ROTATION

2min
pages 34-35

WATCHING DNA STRUCTURAL CHANGES IN REAL TIME

2min
page 32

MONITORING MALARIA PARASITE POPULATIONS IN MALAYSIAN BORNEO

2min
pages 30-31

MAGNETIC SPRAY TRANSFORMS OBJECTS INTO MILLIROBOTS

2min
pages 28-29

A FAST SPIN TEST FOR URINARY TRACT INFECTION

2min
page 27

THE PERFECT ANGLE FOR E-SKIN ENERGY STORAGE

2min
page 26

GAINING MORE CONTROL OVER FUEL CELL MEMBRANES

2min
page 23

SELF-HEALING GELS COULD POWER FUTURE ELECTRONICS

2min
page 22

PUTTING A SPIN ON HEUSLER ALLOYS

2min
pages 20-21

MANUFACTURING MADE EASY WITH ONE-STEP PRINTING

2min
page 19

ELASTOMERS DEVELOP STRONGER BONDS OF ATTACHMENT

2min
page 18

AI HELPS DESIGN NEW ALLOYS MADE TO ORDER

2min
page 17

BRINGING THE GREEN REVOLUTION TO ELECTRONICS

2min
page 16

WHEN EVOLUTIONARY TREES GET FROGGY

2min
pages 14-15

RARE ACCESS REVEALS EAST ANTARCTIC MELTING HOTSPOT

2min
pages 12-13

ELECTRICITY GENERATED DROP BY DROP

2min
pages 10-11

MACHINE LEARNING PREDICTS STRUCTURAL CORROSION

2min
pages 8-9

THE VIRUS HUNTER

4min
pages 38-39

DEEP OCEAN IN DEEP TROUBLE

3min
pages 6-7
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