When traditional zinc oxide encounters its performance ceiling, Zhaoqing Xinrunfeng has quietly revolutionized the future of industrial materials at the atomic scale through a "zinc" revolution.
In industrial fields such as ceramic glazes and new energy batteries, zinc oxide has long been an indispensable functional material. Traditional processes rely on the "mechanical lock" mode of physical doping—improving purity or fineness through mechanical mixing—but struggle to overcome three bottlenecks: low electron mobility, weak interfacial bonding, and limited functional expansion. The industry has long faced persistent issues like glaze pinholes and dendrite growth, while high-energy consumption from high-temperature calcination runs counter to the "dual carbon" goals.
Xinrunfeng's globally 首創(chuàng)的 Biphase Zinc-Based Isomer Metamaterial (chemical formula: [(ZnO)?(Si_aMg_bZn_cR_d)Al?O_{4z}]_y) subverts material performance boundaries through molecular-level design:
Biphase Synergy Regulation: The zinc oxide phase and zinc spinel phase form an "electronic lock" mechanism, precisely controlling core parameters like interfacial energy and lattice constants, achieving leaps in optical bandgap (3.2–3.4 eV) and electron mobility (120 cm2/(V·s));
Performance Multiplication Verification: Thermal shock resistance increased by 3×, glaze Mohs hardness reaching 6+, wear resistance improved by 35%, with comprehensive performance parameters exceeding traditional zinc oxide by 200%;
Green Gene Integration: Firing temperature reduced by 50–150°C, energy consumption decreased by 22%, unit product carbon footprint reduced by 39.5%.
"This is not just material evolution but a paradigm shift from 'physical mixing' to 'molecular programming.'" – Xinrunfeng Technical Team
Core technology implementation relies on the 獨創(chuàng)的 Two-Stage Dual-Atmosphere Gradient Curve Calcination Technology:
Precision Crystal Control Process: 800°C pre-crystallization + 1200°C doping activation, controlling crystal nucleus size (20–190 nm) via CO/N?, with grain uniformity CV <8%, yield jumping from 65% to 99%;
Circular Economy Closed Loop: Waste recycling rate >95%, annual urban zinc resource processing of 20,000 tons, reduced raw ore mining by 12,000 tons, single-ton energy consumption 30% better than national standards;
AI-Enabled Manufacturing: The world's first digital twin system for zinc-based spinel materials, achieving calcination temperature prediction error <5°C.
RA95 Type Glaze-Active Zinc Oxide improves glaze slurry flow stability by 40%, reduces pinhole rate by 40%, and confers 99% antibacterial rate (Certified by the Guangdong Detection Center of Microbiology);
Micro-nano particles create "Aurora Glaze" and "Nebula Glaze," expanding color gamut by 30% and product premium rate by 25%.
Spinel-zinc oxide composite anode inhibits dendrite growth, cycle life exceeding 1,000 times, 50kWh energy storage system cost per kWh 42% lower than lithium batteries;
Flexible electrodes maintain >95% capacity retention after 10,000 bends, providing safe energy solutions for wearable devices.
Xinrunfeng breaks technical barriers, globally launching three core open-source modules:
Chemical Formula Source Code Library: Open 200+ doping combinations and 1,200 sets of experimental data;
AI Process Algorithm Package: Dual-atmosphere calcination simulation program, lattice optimization model;
12-Scenario Solutions: Shared formula codes for antibacterial sintered stone, zinc-ion batteries, etc.
"A single tree does not make a forest. We invite global partners to build a 'zinc universe' where every zinc atom 釋放 ecological value." – Wan Jian, Deputy General Manager of Sales
Xinrunfeng draws a technical roadmap with the "Zinc Technology 4.0" four-dimensional evolution system:
2025: Launch electronic-grade zinc-based 3D printing materials for smart manufacturing;
2027: Zinc-based photocatalytic materials applied in self-cleaning architectural glass;
2030: Achieve full industrial chain carbon neutrality, establish a "Zinc Regeneration 5R System" with 99.2% resource utilization.
Technical Highlights of Xinrunfeng Biphase Zinc-Based Isomer Metamaterial
In Zhaoqing's green mountains and clear waters, Xinrunfeng has condensed the wisdom of Shang and Zhou bronze smelting into atomic-scale precision control over 15 years. As biphase-synergized zinc-based isomer materials quietly reshape industrial rules from glazes to energy storage, we witness not just a technological innovation but a contemporary interpretation of "investigating things to acquire knowledge" by Chinese smart manufacturing.
There is no shortcut on the path of science and technology—only steadfast craftsmanship.
Xinrunfeng invites global partners to co-write a sustainable future with the "zinc" pen.
References
: 2025 Guangzhou Ceramic Industry Exhibition Technology Release
: Liling Industry-University-Research Cooperation Technical White Paper
: RA95 Active Zinc Oxide Energy-Saving Characteristics
: Ceramic Glaze Functional Breakthrough Empirical Evidence
: Aqueous Zinc Battery Anode Innovation
: Zero-Carbon Strategy & Production Capacity Layout
: Zinc-Based Material Civilization Inheritance
: Zinc-Based Material Cross-Industry Applications
: Energy Storage Industry Pain Points Resolution
Translation by Xinrunfeng Technical Team
