Optical materials news

Tin oxide makes transparent improvement to organic solar cells

By depositing tin oxide to form the electron-transport layer, researchers have fabricated an organic solar cell with an efficiency of over 17%.

Conventional looms produce unconventional textiles

Researchers have developed flexible displays and smart fabrics that can be made on the same industrial looms used to make conventional textiles.

Self-assembled coating leads to one-step solution

An innovative one-step solution-coating approach simplifies the manufacturing process for perovskite solar cells.

MXenes promise versatile thermal management

transition metal carbide and carbonitride MXenes possess optical properties in the visible and IR range ideal for thermal management applications

Dynamic glass windows get a visible upgrade

Organic solar cells subjected to twisted degradation

Researchers have identified a novel degradation mechanism, involving twisted polymers, in the electron-donor material of an organic solar cell.

Molybdenum disulfide takes charge of hot carriers

Researchers have shown that extremely thin films of molybdenum disulfide display unprecedented charge carrier properties.

Perovskite solar cells need to learn resilience

Researchers have shown that machine learnng can identify hybrid pervoskites that are both high-performing and resiliant to environmental conditions.

Novel photovoltaic cell looks good in ambient light

Researchers have created an environmentally friendly, high-efficiency photovoltaic cell that can harness ambient light to power internet of Things devices.

Colorful fibers act as optical barcode for colorful clothes

Researchers have used structural-color fibers comprising layers of different polymers to produce an optical barcode for identifying different fabrics.

Making perovskites more efficient

Synthesizing perovskites more effectively

Semiconductor metasurface offers coherent way to steer light

Researchers have developed a semiconductor metasurface that can dynamically steer light pulses from incoherent light sources like LEDs.

New model gets up to speed on organic solar cells

Using computer simulations and quantum calculations, researchers have modelled how charges are produced and transported in organic solar cells.

Colorful future for new plasmonic paint

A novel plasmonic paint utilizes a nanoscale structural arrangement of aluminum and aluminum oxide to create different colors.

Enhanced organic solar cells can boost plant growth

An anitoxidant layer can enhance the stability of semi-transparent organic solar cells, allowing them to used as a roof material in greenhouses.

Perovskite solar cells benefit from firm boundaries

Channeling ions along the grain boundaries in perovskite materials improves the stability and operational performance of perovskite solar cells.

Nanoparticles self-assemble to harvest solar energy

Using self-assembling iron oxide nanoparticles, researchers have managed to produce a solar harvester with enhanced energy conversion capabilities.

Metal substrate boosts perovskite solar cells

Placing a perovskite on a layer of metal or alternating layers of metal and a dielectric material can greatly increase its light-conversion efficiency.