Spintronics-info launches new marketing and advertisement opportunities for spintronics companies!

As part of the recent reorganization of Spintronics-Info's service and operation paradigm, we are proud to offer a whole new marketing approach! We believe in marketing schemes that are tailor-made to be a perfect fit to our clients' needs and budgets. We offer various marketing options and tools, from sponsored posts and email blasts, through banners and newsletter promotions, to bespoke content creation and additional custom solutions.

MicroLED-Info's marketing options image

Whether your company is looking for new customers, exposure to new potential markets, collaborations, investments or brand-enhancement, Spintronics-Info is the perfect venue. Our readers represent the entire industry eco-system, including researchers, materials producers, device makers, equipment makers, investors, engineers, C-level management and more.

Researchers use thin GaMnAs film to create an extremely efficient spintronics device

Researchers from the University of Tokyo have developed a spintronics device that can quickly and efficiently magnetize - which they say is between one and two orders of magnitude more power efficient than current spintronics device.

Magnetization reverse in GaMnAs (UTokyo)

The researchers used a ferromagnetic semiconductor material called gallium manganese arsenide (GaMnAs) - the magnetization of which can be fully reversed with the application of very small current densities.

Researchers developed a solid-state spin filtering device based on artificial molecular motors

Researchers RIKEN in collaboration with several other Universities, developed an organic solid-state spin filtering device. The device is based on a thin layer of artificial molecular motors.

Undirectional rotation of artificial molecular motors (RIKEN)

The researcher explain that the artificial molecular motors demonstrate four times chirality inversion by light irradiation and thermal treatments during the 360-degree molecular rotation. This means that the spin-polarization direction of electrons that pass through the molecular motors are switched by light irradiation or thermal treatments.

European researchers develop a new method to create 3D spintronics devices

Researchers from the University of Glasgow together with European partners developed a new method to transfer spin information between layers of spintronic materials - basically enabling the development of 3D magnetic structures.

3D magnetic interactions, the University of Glasgow image

This discovery is based on chiral spin interaction. The researchers were able to stablize these interactions within a magnetic layer and, for the first time, extend these types of interactions to other layers.