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LEADING EDGE RECEIVES HIGH GRADE COBALT-NICKEL RESULTS FROM SYSTEMATIC GALLERY CHIP SAMPLING, BIHOR SUD PROJECT, ROMANIA

LEADING EDGE RECEIVES HIGH GRADE COBALT-NICKEL RESULTS FROM SYSTEMATIC GALLERY CHIP SAMPLING, BIHOR SUD PROJECT, ROMANIA

- Systematic sampling confirms in-situ high grade Co-Ni-Au and Cu-Zn-Pb-Ag mineralization within +150 m and 350 m gallery segments in G7 and G4 respectively

- G7 highlights include 3.5% Cobalt , 29.7% Nickel, 15.65 g/t Au with 60% of the samples exceeding 0.44% Nickel equivalent*

- G4 highlights include 11.7% Copper, 11.7% Lead and 18.7% Zinc with almost 50% of the samples exceeding 1 % copper equivalent**

- Channel sampling of the mineralised zones will follow in preparation for underground diamond drilling.

Vancouver, October 25, 2023 – Leading Edge Materials Corp. (“Leading Edge Materials” or the “Company”) (TSXV: LEM) (Nasdaq First North: LEMSE) (OTCQB: LEMIF) (FRA: 7FL) is pleased to announce it has received positive assay results for Co-Ni-Au from Gallery 7, and Cu-Zn-Pb-Ag from Gallery 4, systematically surveyed with chip samples mostly of 0.5-2 kg from mineralized zones identified visually on mapping and by handheld XRF. Exposed mineralization was sampled at a spacing of approximately 1 metre along strike to understand the extent of mineralized zones on the gallery walls in preparation of a follow-up channel sampling campaign. Results are displayed schematically on the gallery plans in Figs. 2 and 3, and on Tables 1 and 2.

Eric Krafft, Chief Executive Officer states: “We are very excited by the results from this initial stage of detailed exploration in Galleries 4 and 7, which has included detailed mapping and chip sampling. The results highlight the extent and high-grade mineralization potential of the Bihor Sud project. These results clearly justify the move to channel sampling and then underground drilling. Galleries 4 and 7 represent only a small portion of our exploration license with multiple historical galleries providing future exploration opportunities.

Co-Ni-Au in Gallery 7
The distribution of mineralized zones is within the 150 m long segment of G7 where they have been mapped and sampled to date (Figure 2). Sampling length in G7 was limited by a fall of ground that the Company is having cleared and made safe. Observed Co-Ni-mineralization extends a considerable distance and will add to the overall strike length of the total mineralized G7 segment. The structurally controlled mineralized zones are commonly traced on the gallery walls over few metres to few tens of metres and are on the order of 20-80 cm thick but may occur in a stacked manner with barren material in between. Mineralization occurs on the foliation of schists, on the cleavage in schists, and on faults. A total of 104 chip samples were collected from G7 (see Table 1), and include highlight samples of 15.65 g/t gold, 3.5% cobalt and 29.7% nickel.

*Nickel equivalent grades are based on the following metal prices; gold 1978 US$/oz, cobalt 33,420 US$/t, nickel 18,000 US$/t.

**Copper equivalent grades are based on the following metal prices; copper 7993 US$/t, zinc 2414 US$/t, lead 2100 US$/t, silver 23 US$/oz

Sample preparation and gold assays were performed by ALS Romania; assays for all other elements were performed by ALS Geochemistry in Ireland (Loughrea).

The QP has reviewed the QA/QC data and has no doubt the reported results have been obtained by the laboratory to best industry practice.

Figure 1: License overview map showing the location of the sampled galleries G4 and G7 whose extent is only schematically given.

Cu-Zn-Pb-Ag in Gallery 4
Mineralization in G4 is controlled by steeply dipping NNW-SSE faults, and there is virtually no dissemination with economic grades on the foliation of schists around mineralized faults. The segment in G4, wherein multiple, parallel mineralized structures are exposed, has a strike extent of about 350 m, and individual mineralized fault sectors can be traced over metres to several tens of metres on the gallery walls. Mapping of the mineralized structures indicates that they only rarely exceed 40 cm and are commonly about 10-20 cm thick. A total of 76 chip samples were collected from mineralized zones of G4 (see Table 2 and Figure 3), and include highlight samples of 11.7% copper, 18.7% zinc, 11.7% lead and 649 g/t silver.

Further exploration
Being located up-valley, G4 is positioned 50 m higher than G7. Accordingly, the cross-cut driven from G4 towards G7 (schematically shown in green on Figure 1) reaches Co-Ni-Au mineralization 50 m above G7, where a system of side-galleries and niches is developed from G4. There is also a cross-cut driven from G7 towards the down-dip extent of Cu-Zn-Pb-Ag mineralization 50 m under G4, where a system of side-galleries and niches is developed at the elevation level of G7 exposing Cu-Zn-Pb-Ag-mineralized structures. Furthermore, Co-Ni-Au-mineralization was accessible in G7 only to 560 m from the gallery mouth, where a collapsed zone in mineralization blocked the passage. This is now cleared with the passage secured and ventilated. A preliminary review of G7 beyond the collapsed zone reveals several zones of Co-Ni-oxides with their typical pink and green colours on the gallery walls, which are currently surveyed. All of the mentioned gallery sectors in Co-Ni-Au and Cu-Zn-Pb-Ag mineralization are subject to further systematic chip sampling. Once completed, channel samples will be projected and executed based on the chip sample results, to be followed up by an underground drilling campaign.

Figure 2: Location of chip samples in G7. Mineralization is open to the SSE where access has only now been established. Samples VLG07C102-104 (Table 1) form an outlier 80 m NNW of the image frame not displayed here.

Figure 3: Location of chip samples in G4 on mineralized NW-SE structures. Zoom in for more detail.


Table 1: Chip assay results from mineralized exposures along a 230 m segment in Gallery 7, spaced approximately 1 metre apart in individual exposures.

Sample IDAu [g/t]Co [%]Ni [%] Sample IDAu [g/t]Co [%]Ni [%]
VLG07C0010.270.050.02 VLG07C0500.080.540.40
VLG07C0020.060.030.01 VLG07C0510.310.480.66
VLG07C0030.760.150.05 VLG07C0522.521.5113.60
VLG07C0040.100.060.03 VLG07C0530.822.006.61
VLG07C0050.160.070.05 VLG07C0542.051.2312.65
VLG07C0064.180.130.11 VLG07C0550.520.373.04
VLG07C0071.440.130.07 VLG07C0561.020.547.17
VLG07C0081.330.970.35 VLG07C057<0.010.010.01
VLG07C0090.030.020.02 VLG07C0580.010.040.09
VLG07C0100.080.200.13 VLG07C0590.440.411.01
VLG07C0110.030.040.04 VLG07C0600.020.090.05
VLG07C0120.050.360.08 VLG07C0610.010.190.08
VLG07C0130.030.090.05 VLG07C0622.051.434.12
VLG07C0140.060.050.06 VLG07C0630.930.751.65
VLG07C0150.070.210.04 VLG07C0641.991.534.35
VLG07C0160.020.050.01 VLG07C0650.050.500.30
VLG07C0170.420.340.06 VLG07C0660.040.100.06
VLG07C0180.130.240.13 VLG07C0670.770.9329.70
VLG07C0190.010.050.02 VLG07C0680.560.3023.30
VLG07C0200.020.170.06 VLG07C0690.020.060.13
VLG07C0210.040.090.09 VLG07C0700.050.020.52
VLG07C0220.010.190.11 VLG07C0710.010.060.08
VLG07C023<0.010.020.01 VLG07C0720.010.110.05
VLG07C024<0.010.020.01 VLG07C0730.051.070.98
VLG07C025<0.010.010.02 VLG07C0740.010.010.03
VLG07C026<0.010.000.01 VLG07C0750.060.422.66
VLG07C0272.240.190.27 VLG07C0760.020.950.44
VLG07C0285.301.4317.80 VLG07C0770.070.400.14
VLG07C0290.010.010.03 VLG07C0784.870.690.17
VLG07C03014.20.240.29 VLG07C0790.830.860.13
VLG07C0311.710.709.66 VLG07C0800.040.160.09
VLG07C0320.010.000.02 VLG07C0810.800.572.33
VLG07C0334.020.110.07 VLG07C0820.320.391.02
VLG07C0340.450.090.17 VLG07C0830.060.190.08
VLG07C0350.150.140.05 VLG07C0840.060.020.01
VLG07C03615.652.7415.95 VLG07C0850.010.000.01
VLG07C0370.060.010.36 VLG07C086<0.010.010.01
VLG07C0380.120.021.11 VLG07C0870.010.010.01
VLG07C0390.040.010.05 VLG07C0880.010.000.00
VLG07C0400.090.200.07 VLG07C0890.010.070.02
VLG07C0410.050.130.06 VLG07C0901.000.420.25
VLG07C0420.381.446.18 VLG07C0917.603.533.98
VLG07C0430.532.873.36 VLG07C0920.890.760.64
VLG07C0441.052.694.41 VLG07C0931.261.320.41
VLG07C0450.020.140.06 VLG07C0940.010.040.01
VLG07C0460.942.6915.60 VLG07C0953.970.717.90
VLG07C0470.050.480.28 VLG07C0967.772.591.21
VLG07C0480.921.3516.00 VLG07C0970.710.320.21
VLG07C0490.800.667.67 VLG07C0983.300.690.58

Table 1 continued

Sample IDAu [g/t]Co [%]Ni [%]
VLG07C0991.900.480.22
VLG07C1000.040.200.65
VLG07C1010.040.000.01
VLG07C1021.880.446.24
VLG07C1030.020.050.03
VLG07C1040.030.040.04

Table 2: Chip assay results from mineralized exposures along a 350 m segment in Gallery 4, spaced approximately 1 metre apart in individual exposures.

Sample IDAg [g/t]Pb [%]Cu [%]Zn [%] Sample IDAg [g/t]Pb [%]Cu [%]Zn [%]
VLG04C00110.020.010.05 VLG04C03920.060.010.03
VLG04C002<10.010.000.01 VLG04C040150.220.7418.65
VLG04C003170.260.010.09 VLG04C041<10.010.030.03
VLG04C0040.50.010.000.02 VLG04C042<10.000.010.02
VLG04C00580.020.070.02 VLG04C043<10.000.000.01
VLG04C00630.080.000.08 VLG04C044<10.010.010.02
VLG04C007<10.010.000.02 VLG04C045801.150.040.11
VLG04C008130.030.240.94 VLG04C046<10.010.020.04
VLG04C009<10.010.000.04 VLG04C047100.030.010.08
VLG04C010<10.010.000.04 VLG04C048<10.010.000.01
VLG04C0113404.573.312.38 VLG04C049<10.000.010.09
VLG04C012450.140.601.03 VLG04C050210.510.021.22
VLG04C013230.050.781.75 VLG04C0511788.862.466.66
VLG04C0142750.872.863.75 VLG04C0521162.880.273.22
VLG04C0153091.961.252.34 VLG04C0532205.411.788.77
VLG04C01650.080.010.14 VLG04C0544197.520.4410.45
VLG04C01750.330.090.56 VLG04C0551752.181.5518.00
VLG04C018430.390.010.36 VLG04C0567311.701.3410.95
VLG04C019381.550.906.60 VLG04C057483.960.445.02
VLG04C020660.361.3912.15 VLG04C05830.850.070.57
VLG04C021640.661.034.56 VLG04C059<10.020.060.03
VLG04C022230.140.514.60 VLG04C06010.010.080.02
VLG04C023290.150.3214.50 VLG04C061<10.000.070.01
VLG04C024240.190.150.39 VLG04C062<10.000.010.02
VLG04C025300.076.550.42 VLG04C063<10.010.070.03
VLG04C0262431.095.391.58 VLG04C06420.090.060.10
VLG04C0271110.772.643.43 VLG04C065190.160.061.79
VLG04C028520.211.510.88 VLG04C06660.140.010.26
VLG04C029650.810.208.51 VLG04C067<10.010.010.03
VLG04C030150.381.051.10 VLG04C068<10.000.010.02
VLG04C031300.224.210.40 VLG04C069190.240.131.19
VLG04C0322932.050.187.16 VLG04C0703975.426.784.31
VLG04C0331030.680.060.94 VLG04C071370.330.111.53
VLG04C0341515.960.364.79 VLG04C0721802.632.153.10
VLG04C035310.763.980.76 VLG04C0736490.1911.700.61
VLG04C036<10.050.020.05 VLG04C0743505.893.1411.45
VLG04C037<10.010.010.02 VLG04C0752301.703.233.56
VLG04C03810.020.040.06 VLG04C07680.150.030.56

Qualified Person

The scientific and technical information in this release has been reviewed, verified, and approved by, a Martin S. Oczlon, PhD Geol, CEngMIMMM, a consultant to Leading Edge Material and Qualified Person as defined in Canadian National Instrument 43-101 “Standards of Disclosure for Mineral Projects" (“NI 43-101”).

The QP has reviewed and verified the QA/QC data including sample handling, security and analytical procedure, and has no doubt the reported results have been obtained by the laboratory to best industry practices.

Sample preparation and gold assays were performed by ALS Romania; assays for all other elements were performed by ALS Geochemistry in Ireland (Loughrea).

On behalf of the Board of Directors,
Leading Edge Materials Corp.

Eric Krafft, CEO

For further information, please contact the Company at:
info@leadingedgematerials.com
www.leadingedgematerials.com

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About Leading Edge Materials

Leading Edge Materials is a Canadian public company focused on developing a portfolio of critical raw material projects located in the European Union. Critical raw materials are determined as such by the European Union based on their economic importance and supply risk. They are directly linked to high growth technologies such as batteries for electromobility and energy storage and permanent magnets for electric motors and wind power that underpin the clean energy transition towards climate neutrality. The portfolio of projects includes the 100% owned Woxna Graphite mine (Sweden), Norra Karr HREE project (Sweden) and the 51% owned Bihor Sud Nickel Cobalt exploration alliance (Romania).

Additional Information

The information was submitted for publication through the agency of the contact person set out above, on October 25, 2023 at 1:30 pm Vancouver time.

Leading Edge Materials is listed on the TSXV under the symbol “LEM”, OTCQB under the symbol “LEMIF” and Nasdaq First North Stockholm under the symbol "LEMSE". Mangold Fondkommission AB is the Company’s Certified Adviser on Nasdaq First North and may be contacted via email CA@mangold.se or by phone +46 (0) 8 5030 1550.

Reader Advisory

This news release may contain statements which constitute “forward-looking information” under applicable Canadian securities laws, including statements regarding plans, intentions, beliefs and current expectations of the Company, its directors, or its officers with respect to the future business activities of the Company. The words “may”, “would”, “could”, “will”, “intend”, “plan”, “anticipate”, “believe”, “estimate”, “expect” and similar expressions, as they relate to the Company, or its management, are intended to identify such forward-looking information. Investors are cautioned that any such forward-looking information is not a guarantee of future business activities and involves risks and uncertainties, and that the Company’s future business activities may differ materially from those in the forward-looking information as a result of various factors, including, but not limited to, fluctuations in market prices, successes of the operations of the Company, continued availability of capital and financing and general economic, market or business conditions. There can be no assurances that such information will prove accurate and, therefore, readers are advised to rely on their own evaluation of such uncertainties. The Company does not assume any obligation to update any forward-looking information except as required under the applicable securities laws.

Neither the TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accept responsibility for the adequacy or accuracy of this news release.

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