This announcement contains inside information for the purposes of Article 7 of the UK version of Regulation (EU) No 596/2014 which is part of UK law by virtue of the European Union (Withdrawal) Act 2018, as amended ("MAR"). Upon the publication of this announcement via a Regulatory Information Service, this inside information is now considered to be in the public domain.

6^th March 2024

EXCELLENT ROCK CHIP ASSAYS PEAKING AT 4.67% Li₂O

MULTIPLE ASSAY RESULTS > 1% Li₂O

NEW ZONE - OSBORNE EAST - IDENTIFIED

COARSE SPODUMENE CRYSTAL SIZE UP TO 30CM LENGTH

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Highlights:

·    Ground reconnaissance sampling from 100% owned Artemis Resources tenement E47/1746 delivers excellent assay results from the Mt Marie prospect including:

o 24AR01-14 - 4.67% Li₂O

o 24AR01-15 - 2.11% Li₂O

o 24AR01-02 - 1.74% Li₂O

o 24AR01-06 - 1.68% Li₂O

o 24AR01-11 - 1.46% Li₂O

·    Coarse spodumene crystals observed up to 30cm in length.

·    Multiple rock chip assays >0.50% Li₂O from new zone at Osborne East

·    Further reconnaissance and follow-up sampling to be undertaken across E47/1746

Artemis Resources Limited ('Artemis' or the 'Company') (ASX/AIM: ARV) is pleased to provide this update to shareholders on its recent lithium focused ground reconnaissance program.

Executive Director George Ventouras commented "This second round of rock chip assay results provides further evidence of the potential scale and grade of the Artemis lithium discovery. These results from the Mt Marie prospect and the new zone identified at Osborne East, are opening up the lithium mineralised region considerably and suggests that a greater portion of the tenement area is now prospective for lithium mineralisation.

It's very early in the reconnaissance program. However, given the results to date and the outcropping pegmatites already delineated, we are confident that we have only just scratched the surface of lithium mineralisation potential across the tenement portfolio. With more than 150km² of 100% owned tenure and only around 25km² covered in the ground reconnaissance program to date, the pathway of prospectivity is becoming exciting".

Mt Marie Lithium Prospect

A second program of strategic ground reconnaissance was completed in February which aimed to expand on the results achieved previously, where rock chip assays peaked at 1.82% Li₂O at the Mt Marie Prospect¹ (Figure 2). The location of the first outcropping pegmatite was used as a starting point. The ground crew extended this beyond 200m of outcropping strike length and further sampled this trend and general area, in addition to other locations identified through technical review.

Figure 1. Artemis Resources West Pilbara tenements

¹ASX Announcement, Artemis Resources Ltd, 5 February 2024

Osborne East Lithium Prospect

A first program of ground reconnaissance was completed in February and covered part of the area to the east of the Osborne JV (ARV:49%, GRE: 51%). This area was recognised via drone survey and identified as a priority target. Several rock chips were subsequently sampled from this new region.

Results from Rock Chip Sampling

In total, 36 rock chip samples were collected from the Mt Marie and Osborne East prospects and dispatched to the lab for multi-element analysis.

Figure 2 Mt Marie and Osborne East Lithium Prospects

Figure 3. Rock chip sample locations at the Mt Marie and Osborne East Lithium Prospects

The rock chip assays have delivered excellent results which include the following;

Mt Marie Prospect

§ 24AR01-14 - 4.67% Li₂O

§ 24AR01-15 - 2.11% Li₂O

§ 24AR01-02 - 1.74% Li₂O

§ 24AR01-06 - 1.68% Li₂O

§ 24AR01-11 - 1.46% Li₂O

§ 24AR01-04 - 1.45% Li₂O

§ 24AR01-12 - 1.29% Li₂O

§ 24AR01-01 - 1.06% Li₂O

§ 24AR01-03 - 1.05% Li₂O

Osborne East Prospect

§ 24AR01-021 - 0.65% Li₂O

§ 24AR01-027 - 0.60% Li₂O

§ 24AR01-036 - 0.59% Li₂O

§ 24AR01-035 - 0.57% Li₂O

Rock chip samples from the Mt Marie prospect were previously tested for mineralogy type at Curtin University and the analysis confirmed that the host mineral for the lithium is spodumene². The follow up exploration program uncovered even larger and coarser spodumene crystals than previously identified (Figure 4) which provides a level of confidence as to the grade and scale of this discovery. Samples from Osborne East will be sent to the university in due course for testing and to ascertain mineralogy.

This level of Li₂O result is unparalleled in the region and is on par with the results achieved at the Andover project of Azure Minerals Ltd where they recorded a peak rock chip assay result of 4.87% Li₂O³ and have reported an exploration target of 100-240mt @ 1.00-1.5% Li₂O⁴ (Azure Minerals is currently subject to a takeover proposal via a joint bid from Sociedad Quimica y Minera de Chile SA (SQM) and Hancock Prospecting Pty Ltd).

The lithium bearing pegmatite at the Mt Marie prospect occurs along a mirrored or similar NE structural trend to pegmatites discovered by Azure Minerals only 20km to the east. Given the location of the Artemis tenements in relation to the Azure discovery and the proximity to Karratha and its logistical advantages, the potential pathway for the Mt Marie lithium prospect is becoming clearer and more compelling.

²ASX Announcement, Artemis Resources Ltd, 5 February 2024

³ASX Announcement, Azure Minerals Ltd, 20 January 2023

⁴ASX Announcement, Azure Minerals Ltd, 7 August 2023

Figure 4. Large and coarse spodumene crystals from the Mt Marie Lithium Prospect. 

Figure 5. Executive Director George Ventouras with spodumene bearing pegmatite sample from the Mt Marie Lithium Prospect

Figure 6. Pegmatite with abundant spodumene, sample from the Mt Marie Prospect

The pegmatites intrude mafic units similar to the type of host rocks observed at the Azure lithium discovery. The majority of recently sampled pegmatites are characterised by quartz-feldspar-mica mineralisation with visible spodumene commonly observed in outcrops at the newly discovered Mt Marie prospect.  In this area the spodumene crystals may represent up to 40% of the bulk rock fabric and range between 3cm to 10cm in length.  However, the maximum spodumene crystal length is reported up to 30cm.   The latest assay results, reporting up to 4.67% Li₂O, are very compelling and support these observations.

The newly discovered pegmatite trend at Osborne East has returned some very promising assay results of up to 0.65 % Li₂O.  These pegmatites broadly occur to the east of the high-grade Osborne lithium pegmatite zone⁵ which is located on the Company's JV ground.   Importantly, these new results now form an emerging and prospective ~6km east-west trend.   

Further work on the tenements across the major structural zones will follow on from exploration already conducted including drone surveying, rock chip sampling, soil sampling and other appropriate ground reconnaissance, where appropriate. The aim of the technical team will be to cover all priority areas identified through previous review and to build on the results to date. Program of works (PoW's) and heritage clearance applications are also in process.

⁵ASX Announcement, Greentech Metals Ltd, 13 February 2024

Figure 7. Pegmatite outcrop at the Mt Marie Prospect

Further work is also being planned on the Osborne Lithium Project which is a joint venture with Greentech Metals (ASX:GRE) (ARV:49%-GRE:51%).

This announcement was approved for release by the Board.

About Artemis Resources

Artemis Resources (ASX/AIM: ARV; FRA: ATY) is a gold, copper and lithium focused resources company with projects in Western Australia. The Mt Marie Lithium Prospect, the Osborne Lithium JV (Artemis 49%; GreenTech Metals (ASX:GRE) 51%) and the Carlow Castle gold-copper-cobalt project in the West Pilbara; and the Paterson Central Gold/Copper project in the Paterson Province (located adjacent to Greatland Gold / Newmont's recent gold-copper discovery at Havieron and only ~42km from the Newmont Telfer gold mine).

Artemis also owns the Radio Hill processing plant, located only 35km from Karratha.

For more information, please visit www.artemisresources.com.au

Competent Person Statement

Adrian Hell, BSc (Hons), an advisor and consultant to the Company, is a Member of the AUSIMM, and has sufficient experience which is relevant to the style of mineralisation and type of deposit under consideration to qualify as a Competent Person as defined in the 2012 edition of the 'Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves'. Adrian Hell consents to the inclusion in the report of the information in the form and context in which it appears.

Dr Martin Wells (PhD). The sample testing was carried out in the John de Laeter Centre at Curtin University. Spodumene was identified using a proprietary automated mineralogy technique and confirmed using x-ray diffraction (XRD) analysis by Dr Martin Wells (PhD). Dr Wells is a Research Fellow (Mineralogy/Petrology) and an authority in lithium ore deposits as evidenced by his authorship of the 2023 Geological Survey of Western Australia Report 228 (The geology, mineralogy and Geometallurgy of EV materials deposits in Western Australia; https://dmpbookshop.eruditetechnologies.com.au/product/mriwa-report-m532-geology-mineralogy-and-metallurgy-of-ematerial-resources-in-wa.do). Dr Martin Wells consents to the inclusion in the report of the information pertaining to sample analyses undertaken at the John De Laeter Centre in the form and context in which it appears.

Significant Results > 0.5% Li₂O