Titan Mining Corporation provided an update on the ongoing Kilbourne exploration program. The first phase of exploration has been focused on mineralization within the fully permitted footprint of the Company's 100% owned Empire State Mine ("ESM") in upstate New York. Surface drilling at Kilbourne has focused on delineating the thickness and grade of the historically documented graphite mineralization within the Company?s active mine permit.

To date 21 core holes have been completed, totaling 7,357 ft (2,242 m) of drilling. The Company has received assays from 15 of the completed 21 holes. Significant mineralized intercepts from drilling include: KX24-004 - 173.5 feet assaying 3.8% graphitic carbon Including 80.0 feet assaying 4.0%graphitic carbon, KX24-003 - 140.0 feet assaying 3.5% graphitic carbon, KX23-001 - 91.5 feet assaying 3.3% graphitic carbon, KX24-002 - 83.9 feet assaying 3.3% graphitic carbon, KX24-015 - 80.0 feet assaying 3.6% graphitic carbon.

The Company is pleased by the early success of the Phase I exploration program at Kilbourne. Graphite mineralization has been successfully tested from surface to vertical depths of 592 ft (180 m), and along a strike length of nearly 5,000 ft (1,524 m). All drilling has taken place within the Company?s active use permit.

In Phase I an additional 11 holes are planned to test near surface mineralization within the remaining 3,500 ft (1,066.8 m) of target strike length. In addition to the ongoing drill program, the Company completed 265 feet (80.7 m) of channel sampling, testing bedrock exposed through trenching. To date, 91 trench samples have been collected.

The assay results have continued to exceed expectations, with the grade of mineralized drill intercepts averaging 3.2% Cg (graphitic carbon). Individual samples within the mineralized zones have returned assays ranging up to 11.3 % Cg (KX24-007 from 165.0 ft to 168.2 ft, part of the noted 13 ft interval from 160.0 ft to 173.0 ft at 6.0% Cg). As part of Phase I, representative drill core intervals of both the upper and lower mineralized zones have been selected for composite and metallurgical testing.

Forte Analytics (formerly RDI) of Wheat Ridge, Colorado has been contracted to perform tests to evaluate processing options in order to maximize recovery and concentrate grades while maintaining the natural large flake size of the Kilbourne mineralization. Preliminary testing at SGS Labs in Lakefield, Ontario has shown that the Kilbourne Mineralization is able to be purified to a satisfactory quality, and that early size fraction analyses places the material in a suitable range for battery usage, and other applications. To ensure reliable sample results, the Company has a rigorous QA/QC program in place that monitors the chain-of-custody of samples and includes the insertion of blanks and certified reference standards at statistically derived intervals within each batch of samples.

Core is photographed and split in half with one-half retained in a secured facility for verification purposes. Drill core samples submitted for analysis had a minimum weight of 0.6 lb (0.3 kg) and a maximum weight of 6.0 lb (2.7 kg), with an average weight of 3.6 lb (1.6 kg). Trench samples submitted for analysis had a minimum weight of 4.2 lb (1.9 kg) and a maximum weight of 26.2 lb (11.9 kg), with an average weight of 6.2 lb (13.6 kg).

Analysis has been performed at SGS Canada Inc. (?SGS?) an independent ISO/IEC accredited lab. Sample preparation (crushing and pulverizing) and total graphitic carbon analysis has been completed at SGS Lakefield, Ontario, Canada. SGS prepares a pulp of all samples and sends the pulps to their analytical laboratory in Burnaby, B.C., Canada for multielement analysis.

SGS analyzes the pulp sample by leach and IR combustion for total graphitic carbon (GC_CSA05V) and aqua regia digestion (GE-ICP21B20 for 34 elements) with an ICP ? OES finish including Cu (copper), Pb (lead), and Zn (zinc). All samples in which Cu (copper), Pb (lead), or Zn (zinc) are greater than 10,000 ppm are re-run using aqua regia digestion (GO_ICP21B100) with the elements reported in percentage.

The Company has not identified any drilling, sampling, recovery, or other factors that could materially affect the accuracy or reliability of the data set out in this news release. True widths of the mineralized zones described in this news release are not presently known.