Across power, heat and transport, hydrogen is the missing link that turns scattered renewable electricity into a storable, dispatchable fuel. Its widespread adoption promises deep decarbonisation, grid balancing and a new era of clean industrial feedstock. Carbon-based materials act as silent enable

Solar has become the cheapest new-build electricity on Earth, yet its true promise lies in grid parity plus storage—delivering clean power when and where it is needed. Scaling PV means pushing modules toward higher watt-peak, lower temperature coefficients and 30-year field life. Carbon-based compon

Chip demand is doubling every four years, driven by AI, 5G and electrified transport. The industry’s horizon is defined by smaller nodes, larger wafers and ever-tighter contamination budgets—all demanding materials that stay dimensionally stable above 1,000 °C yet add almost zero metallic contaminat

From phones to megawatt-hour storage farms, Li-ion cells are the common currency of electrified life. The race is on to charge faster, cycle longer and manufacture greener—goals that hinge on reusable, thermally stable and ultra-pure process vessels. Carbon does not just store lithium; it hosts the

Grid operators need MW-scale storage that can shift renewable power for 4–12 hours without capacity fade. Vanadium redox flow batteries (VRFBs) answer with independent power/energy scaling and >20-year calendar life, but only if every watt reaches the stacks through corrosion-proof, gas-tight and lo

From platinum melting to rare-earth reduction, tomorrow’s high-purity metals demand temperatures above 2,000 °C and atmospheres that dissolve steel. Success hinges on thermally stable, chemically quiet and dimensionally precise tooling that survives thousands of rapid heat-cool cycles without contam

From 5G handsets to cloud servers, devices are thinner, faster and hotter. The bottleneck is no longer processing power but heat: every extra degree slows performance and shortens lifetime. Next-gen electronics need materials that move heat quickly, add almost no weight and fit into micron-scale

Inside every mechanical beat, graphite is the quiet scaffold. An isotropic graphite core, sheathed in pyrolytic carbon, endures four-billion opening cycles across forty years—lightweight, X-ray transparent and biologically silent. Carbon turns pulsating blood into a precision metronome without

Anti-oxidation Graphite - Carbon that Breathes Fire and Stays Lightweight, subliming at 3 350 °C yet shielded by a micron-thin CVD or SiC skin, this graphite survives 1,750 °C air blasts without spalling—turning furnace jigs, rocket throats and glass molds into long-life, low-mass tools that