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
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
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
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 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
