Japan-based group develops 'liquid laser' that is tunable by wind

University of Tsukuba says inkjet-printable technology “promises cheaper, flexible optical communications devices.”

Hydrogen Production by Water Splitting with Support of Metal and

Explosion-Protected Model Infrared Gas Analyzer IR810S

A liquid laser that is robust in air and tunable by wind

Aerogels-Inspired based Photo and Electrocatalyst for Water

PDF) Evanescent field trapping and propulsion of Janus particles

PDF) Optical Sensors and Microsystems Using Liquid Crystals

Colloidal quantum dot lasing moves closer to device-ready

Japan Atomic Energy Agency Sector of Nuclear Science Research

Spatial and Temporal Analysis of Sodium-Ion Batteries

Charge Separation in Photocatalysts: Mechanisms, Physical

Advanced Materials Technologies: Vol 6, No 4

Advanced Materials Technologies: Vol 7, No 11

Breakthrough in Ultrafast Tunable Lasers with Lithium Niobate

Physicists discover first transformable nanoscale electronic devices

SPECIAL REPORT: Photonics and the energy crisis