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#TM1 Technology Minerals PLC – Exploration Update on the Leinster Project
Technology Minerals Plc (LSE: TM1), the first listed UK company focused on creating a sustainable circular economy for battery metals, is pleased to announce results from detailed lithogeochemical sampling has yielded high-grade spodumene pegmatite samples in float ranging up to 3.75% lithium oxide (“Li2O”) at Prospecting Licence Area (“PLA 1597”) in County Carlow, Republic of Ireland.
Highlights:
· Assay results are reported for the first stage of detailed lithogeochemical sampling at the Knockeen and Carriglead target areas on the Company’s Leinster Lithium Project.
· A total of 56 rock samples are reported, all of which were analysed at ALS Laboratories in Ireland.
· Two prospects are reported at:
o Knockeen: Out of a total of 56 samples, 41 samples graded above 1% Li2O, of which 20 graded above 2% Li2O and of which two graded above 3% Li2O (Sample AES 63003 – 3.63% Li2O and Sample AES 63033 – 3.75% Li2O)
o Carriglead: Out of a total of 10 samples, six samples graded above 1% Li2O of which one sample analysed above 2% Li2O (sample AES63504 – 2.09% Li2O).
· The programme of intensive prospecting has consolidated the extent of the spodumene pegmatite boulder train at surface as well as significantly enhancing the resolution of the dispersion zone
· The known extent of the boulder train is now over 1km in length from NE to SW and 0.5km from NW to SE and is still open in all directions at Knockeen and Carriglead
· The ongoing work is helping to refine specific areas for targeted drilling.
The licence, which was awarded to Technology Minerals’ wholly owned subsidiary LRH Resources Limited (“LRH”) on 22 March 2022, forms part of the Company’s Leinster Property exploration block, which is operated under an exclusive Option and Earn-in agreement with Global Battery Metals Ltd (“GBML”), (TSXV: GBML; OTCQB: REZZF; Frankfurt: REZ) with no project expenditure required by the Company.
Field Exploration Programme Update
The current phase of detailed exploration work is centred on an area where a forty-year-old historical company report described a trench excavated at Knockeen Townlands on PLA 1597 (Figure 1) which uncovered in bedrock, a 1.8m wide spodumene-bearing pegmatite vein. However no detailed laboratory assays or geological maps of the trench were reported at that time. Historical prospecting around the trench also reported the occurrence of up to 10 large boulders of spodumene-bearing pegmatite at surface.
The current exploration programme carried out under LRH Resources management by Aurum Exploration Services Limited included an initial reconnaissance in July 2022 totalling six samples followed by a more detailed prospecting and lithogeochemical survey on two areas at Knockeen and Carriglead Townlands in December 2022 and totalling 56 samples (Figure 1 & Table 1).
|
Prospect |
Programme |
No |
|
Carriglead |
Recon Sampling July 2022 |
2 |
|
Knockeen |
Recon Sampling July 2022 |
4 |
|
Prospect |
Programme |
No |
|
Carriglead |
Follow Up Sampling Dec 2022 |
10 |
|
Knockeen |
Follow Up Sampling Dec 2022 |
56 |
|
Prospect |
Programme |
No |
|
Carriglead |
Total |
12 |
|
Knockeen |
Total |
60 |
Table 1: Showing number of samples collected (July 2022 & December 2022)
Preliminary Reconnaissance July 2022
Two areas at Knockeen and Carriglead Townlands were targeted with an initial reconnaissance visit in July 2022. Six samples were collected during a site visit and included four at Knockeen and two at Carriglead. Analytical results confirmed the presence of the historically reported spodumene pegmatite boulder train and returned very significant grades of Li2O in all samples. These results have been reported previously but are reproduced here for continuity (Table 2).
|
Sample_ID |
Programme |
Li_ppm |
Li2O_% |
Prospect |
|
210724CL05 |
Recon Sampling July 2022 |
13,700 |
2.95 |
Knockeen |
|
210724CL03 |
Recon Sampling July 2022 |
11,200 |
2.41 |
Knockeen |
|
210724CL04 |
Recon Sampling July 2022 |
11,000 |
2.37 |
Knockeen |
|
210724CL02 |
Recon Sampling July 2022 |
3,240 |
0.70 |
Knockeen |
|
AES61138 |
Recon Sampling July 2022 |
7,470 |
1.61 |
Carriglead |
|
AES61137 |
Recon Sampling July 2022 |
3,550 |
0.76 |
Carriglead |
Table 2: Results from reconnaissance prospecting (July 2022)
* Li2O % = Li ppm % (x 2.153)
Follow Up Detailed Prospecting and Lithogeochemistry
In December 2022, an extensive prospecting and lithogeochemistry survey was completed covering the two areas identified during the reconnaissance programme. A total of 56 samples were collected at Knockeen and 10 at Carriglead. The results were highly encouraging with coherent boulder trains of spodumene-bearing lithium pegmatites mapped out across the prospects. The highlight sample results are shown in Table 3 and the full results are appended in Appendix 1 to this release in Tables 4 and 5 with associated maps showing the locations in Figure 2 (Knockeen) and Figure 3 (Carriglead) below.
Figure 1: Location of the Knockeen and Carriglead target areas PL 1597 showing sample locations
|
Sample_ID |
Programme |
Li_ppm |
Li2O% |
|
AES63003 |
Follow Up Sampling Dec 2022 |
17,410 |
3.75 |
|
AES63033 |
Follow Up Sampling Dec 2022 |
16,860 |
3.63 |
|
AES63519 |
Follow Up Sampling Dec 2022 |
13,160 |
2.83 |
|
AES63015 |
Follow Up Sampling Dec 2022 |
13,050 |
2.81 |
|
AES63029 |
Follow Up Sampling Dec 2022 |
12,920 |
2.78 |
|
AES63042 |
Follow Up Sampling Dec 2022 |
12,580 |
2.71 |
|
AES63014 |
Follow Up Sampling Dec 2022 |
12,200 |
2.63 |
|
AES63021 |
Follow Up Sampling Dec 2022 |
12,040 |
2.59 |
|
AES63018 |
Follow Up Sampling Dec 2022 |
11,980 |
2.58 |
|
AES63011 |
Follow Up Sampling Dec 2022 |
11,820 |
2.54 |
Table 3: Highlight results from the prospecting programme (December 2022)
* Li2O % = Li ppm % (x 2.153)
The current results focussed on the two areas and considerably enhanced the area of boulder trains and significantly shows the high-grade nature and size of the boulders in the material being sampled.
Figure 2: Location of samples and assay results from the Knockeen target area
Figure 3: Location of samples and assay results from the Carriglead target area
Photo 1: Spodumene pegmatite samples from Knockeen and Carriglead
Alex Stanbury, CEO of Technology Minerals, said: “These latest assay results from the Leinster Project in Ireland are highly encouraging and build on previous reconnaissance work which displayed significant grades of Li2O in all samples. The results announced today continue to demonstrate the high-grade nature and size of the boulders in the material being sampled as well as expanding the known extent of the spodumene pegmatite boulder train at Knockeen and Carriglead. Today’s results and ongoing work will help us to determine specific areas for targeted drilling as we progress with the exploration campaign.”
Competent Person
All scientific and technical information in this announcement has been prepared under the supervision of EuroGeol Vaughan Williams M.Sc. P.Geo (a Principal of Aurum Exploration Services who currently provides exploration services to TM and to LRH), and a “qualified person” within the meaning of National Instrument 43-101. Vaughan Williams is also company secretary of LRH and a Director of the LRH Spanish subsidiary Asturmet Recursos S.L.
Enquiries
|
Technology Minerals Plc |
|
|
Robin Brundle, Executive Chairman Alexander Stanbury, Chief Executive Officer |
+44 20 4582 3500 |
|
Global Battery Metals Ltd. |
|
|
Michael Murphy BA, MBA, MSc., ICD, President & CEO |
+1 604-649-2350 |
|
|
|
|
Oberon Investments Limited |
|
|
Nick Lovering, Adam Pollock |
+44 (0)20 3179 0535 |
|
Arden Partners Plc |
|
|
Louisa Waddell, Tim Dainton |
+44 207 614 5900 |
|
|
|
|
Gracechurch Group |
|
|
Harry Chathli, Alexis Gore, William Dobinson |
+44 20 4582 3500 |
Technology Minerals Plc
Technology Minerals is developing the UK’s first listed, sustainable circular economy for battery metals, using cutting-edge technology to recycle, recover, and re-use battery technologies for a renewable energy future. Technology Minerals is focused on extracting raw materials required for Li-ion batteries, whilst solving the ecological issue of spent Li-ion batteries, by recycling them for re-use by battery manufacturers. With the increasing global demand for battery metals to supply electrification, the group will explore, mine, and recycle metals from spent batteries. Further information on Technology Minerals is available at www.technologyminerals.co.uk
Appendix 1: Analytical Results
|
Sample_ID |
Programme |
Li _ppm |
Li2O% |
Prospect |
|
AES63003 |
Follow Up Sampling Dec 2022 |
17,410 |
3.75 |
Knockeen |
|
AES63033 |
Follow Up Sampling Dec 2022 |
16,860 |
3.63 |
Knockeen |
|
AES63519 |
Follow Up Sampling Dec 2022 |
13,160 |
2.83 |
Knockeen |
|
AES63015 |
Follow Up Sampling Dec 2022 |
13,050 |
2.81 |
Knockeen |
|
AES63029 |
Follow Up Sampling Dec 2022 |
12,920 |
2.78 |
Knockeen |
|
AES63042 |
Follow Up Sampling Dec 2022 |
12,580 |
2.71 |
Knockeen |
|
AES63014 |
Follow Up Sampling Dec 2022 |
12,200 |
2.63 |
Knockeen |
|
AES63021 |
Follow Up Sampling Dec 2022 |
12,040 |
2.59 |
Knockeen |
|
AES63018 |
Follow Up Sampling Dec 2022 |
11,980 |
2.58 |
Knockeen |
|
AES63011 |
Follow Up Sampling Dec 2022 |
11,820 |
2.54 |
Knockeen |
|
AES63023 |
Follow Up Sampling Dec 2022 |
11,620 |
2.50 |
Knockeen |
|
AES63028 |
Follow Up Sampling Dec 2022 |
11,580 |
2.49 |
Knockeen |
|
AES63041 |
Follow Up Sampling Dec 2022 |
11,570 |
2.49 |
Knockeen |
|
AES63037 |
Follow Up Sampling Dec 2022 |
11,510 |
2.48 |
Knockeen |
|
AES63016 |
Follow Up Sampling Dec 2022 |
11,460 |
2.47 |
Knockeen |
|
AES63044 |
Follow Up Sampling Dec 2022 |
11,340 |
2.44 |
Knockeen |
|
AES63012 |
Follow Up Sampling Dec 2022 |
11,180 |
2.41 |
Knockeen |
|
AES63008 |
Follow Up Sampling Dec 2022 |
9,920 |
2.14 |
Knockeen |
|
AES63048 |
Follow Up Sampling Dec 2022 |
9,520 |
2.05 |
Knockeen |
|
AES63043 |
Follow Up Sampling Dec 2022 |
9,360 |
2.02 |
Knockeen |
|
AES63027 |
Follow Up Sampling Dec 2022 |
8,820 |
1.90 |
Knockeen |
|
AES63046 |
Follow Up Sampling Dec 2022 |
8,790 |
1.89 |
Knockeen |
|
AES63516 |
Follow Up Sampling Dec 2022 |
8,370 |
1.80 |
Knockeen |
|
AES63036 |
Follow Up Sampling Dec 2022 |
8,300 |
1.79 |
Knockeen |
|
AES63007 |
Follow Up Sampling Dec 2022 |
8,090 |
1.74 |
Knockeen |
|
AES63026 |
Follow Up Sampling Dec 2022 |
8,030 |
1.73 |
Knockeen |
|
AES63010 |
Follow Up Sampling Dec 2022 |
7,890 |
1.70 |
Knockeen |
|
AES63517 |
Follow Up Sampling Dec 2022 |
7,910 |
1.70 |
Knockeen |
|
AES63512 |
Follow Up Sampling Dec 2022 |
7,840 |
1.69 |
Knockeen |
|
AES63017 |
Follow Up Sampling Dec 2022 |
7,550 |
1.63 |
Knockeen |
|
AES63520 |
Follow Up Sampling Dec 2022 |
7,370 |
1.59 |
Knockeen |
|
AES63049 |
Follow Up Sampling Dec 2022 |
7,100 |
1.53 |
Knockeen |
|
AES63515 |
Follow Up Sampling Dec 2022 |
7,040 |
1.52 |
Knockeen |
|
AES63024 |
Follow Up Sampling Dec 2022 |
6,190 |
1.33 |
Knockeen |
|
AES63031 |
Follow Up Sampling Dec 2022 |
6,140 |
1.32 |
Knockeen |
|
AES63013 |
Follow Up Sampling Dec 2022 |
5,720 |
1.23 |
Knockeen |
|
AES63019 |
Follow Up Sampling Dec 2022 |
5,420 |
1.17 |
Knockeen |
|
AES63030 |
Follow Up Sampling Dec 2022 |
5,300 |
1.14 |
Knockeen |
|
AES63034 |
Follow Up Sampling Dec 2022 |
4,960 |
1.07 |
Knockeen |
|
AES63039 |
Follow Up Sampling Dec 2022 |
4,790 |
1.03 |
Knockeen |
|
AES63022 |
Follow Up Sampling Dec 2022 |
4,710 |
1.01 |
Knockeen |
|
AES63514 |
Follow Up Sampling Dec 2022 |
4,300 |
0.93 |
Knockeen |
|
AES63045 |
Follow Up Sampling Dec 2022 |
4,290 |
0.92 |
Knockeen |
|
AES63025 |
Follow Up Sampling Dec 2022 |
3,940 |
0.85 |
Knockeen |
|
AES63032 |
Follow Up Sampling Dec 2022 |
3,550 |
0.76 |
Knockeen |
|
AES63035 |
Follow Up Sampling Dec 2022 |
2,680 |
0.58 |
Knockeen |
|
AES63009 |
Follow Up Sampling Dec 2022 |
1,920 |
0.41 |
Knockeen |
|
AES63047 |
Follow Up Sampling Dec 2022 |
1,480 |
0.32 |
Knockeen |
|
AES63038 |
Follow Up Sampling Dec 2022 |
450 |
0.10 |
Knockeen |
|
AES63001 |
Follow Up Sampling Dec 2022 |
120 |
0.03 |
Knockeen |
|
AES63002 |
Follow Up Sampling Dec 2022 |
120 |
0.03 |
Knockeen |
|
AES63004 |
Follow Up Sampling Dec 2022 |
120 |
0.03 |
Knockeen |
|
AES63005 |
Follow Up Sampling Dec 2022 |
130 |
0.03 |
Knockeen |
|
AES63513 |
Follow Up Sampling Dec 2022 |
100 |
0.02 |
Knockeen |
|
AES63518 |
Follow Up Sampling Dec 2022 |
80 |
0.02 |
Knockeen |
|
AES63006 |
Follow Up Sampling Dec 2022 |
60 |
0.01 |
Knockeen |
Table 4: Results from follow up prospecting at Knockeen (December 2022)
* Li2O % = Li ppm % (x 2.153)
|
Sample_ID |
Programme |
Li_ppm |
Li2O% |
Prospect |
|
AES63504 |
Follow Up Sampling Dec 2022 |
9,720 |
2.09 |
Carriglead |
|
AES63503 |
Follow Up Sampling Dec 2022 |
8,890 |
1.91 |
Carriglead |
|
AES63509 |
Follow Up Sampling Dec 2022 |
7,870 |
1.69 |
Carriglead |
|
AES63501 |
Follow Up Sampling Dec 2022 |
7,460 |
1.61 |
Carriglead |
|
AES63507 |
Follow Up Sampling Dec 2022 |
5,620 |
1.21 |
Carriglead |
|
AES63505 |
Follow Up Sampling Dec 2022 |
5,120 |
1.10 |
Carriglead |
|
AES63508 |
Follow Up Sampling Dec 2022 |
3,280 |
0.71 |
Carriglead |
|
AES63511 |
Follow Up Sampling Dec 2022 |
500 |
0.11 |
Carriglead |
|
AES63506 |
Follow Up Sampling Dec 2022 |
330 |
0.07 |
Carriglead |
|
AES63502 |
Follow Up Sampling Dec 2022 |
290 |
0.06 |
Carriglead |
Table 5: Results from follow up prospecting at Carriglead (December 2022)
* Li2O % = Li ppm % (x 2.153)
Technology Minerals #TM1 – Leinster Project field geochemical exploration programme is advancing on schedule and confirms a well-defined spodumene pegmatite boulder train on Prospecting Licence Area 1597
Technology Minerals Plc (LSE: TM1), the first listed UK company focused on creating a sustainable circular economy for battery metals, is pleased to announce field exploration work is advancing on schedule on the North-West Leinster Lithium Project, with a particular focus on Prospecting Licence Area (“PLA”) 1597.
Highlights:
- Field geochemical exploration programme advancing on schedule.
- The first target area in the vicinity of the historical spodumene bearing trench at Knockeen East is being targeted by a closely spaced deep overburden sampling programme.
- The area is also undergoing intensive prospecting which is consolidating the extent of the spodumene pegmatite boulder train as well as significantly enhancing the resolution of the dispersion zone and therefore the target potential drill target areas.
- A total of 46 rock samples and 233 deep overburden samples along with 13 QAQC samples have been collected to-date and submitted to ALS Laboratories for analysis.
- Deep overburden sampling and prospecting is continuing across the survey grid area, and will migrate to the second target area at Carriglead in due course.
- This work is being carried out to help determine specific areas for follow up drilling.
Field Exploration Programme update
The current phase of detailed exploration work is centred on an where a forty-year-old historical report described a trench excavated at Knockeen Townland on PLA 1597 as having uncovered in bedrock, a 1.8m wide spodumene-bearing pegmatite dyke. However no detailed laboratory assays or geological maps of the trench were reported at that time. Historical prospecting around the trench also reported the occurrence of up to 10 large boulders of spodumene bearing pegmatite at surface some of which may have come from the pegmatite dyke historically intersected in the trench.
The current exploration programme is utilising a well tried and tested geochemical exploration technique called Pionjar or Deep Overburden Sampling. This technique uses equipment to penetrate the soil and glacial till down to the bedrock interface where a sample is collected for analysis. The depth of the sampled material varies between 1m and 5m depth at Knockeen and is much more accurate than sampling nearer to surface soil material as the sample point is closer to the bedrock source of the lithium bearing pegmatites and helps to remove the effects of geochemical dispersion at higher levels in the overburden profile.
The first part of the programme will be carried out in two stages commencing on an initial closely spaced grid (Grid 1) over the area of the historical trench, which will be completed on 25m spaced lines with samples collected at 15m intervals or stations. This will be followed by Stage 2 extending westwards following the trend of the spodumene pegmatite boulder train and termed Grid 2 (in progress) this grid will cover a larger area at 50m line spacing and 30m sample intervals (Figure 2).
The field programme commenced in October 2022 and will continue to late November 2022. To date, a total of 233 deep overburden samples along with 13 QAQC samples have been collected and submitted to ALS Laboratories for analysis, results are pending.
In association with the deep overburden sampling a detailed programme of prospecting is ongoing and to-date 46 rock samples have been collected and submitted to ALS Laboratories for analysis. Subject to any delays in the analysis of the samples, the results for the entire programme are expected to be processed and returned by the end of 2022.
Once the two grids at Knockeen are completed the team will move to the second target area at Carriglead two kilometres to the south where a similar historically reported and since verified spodumene pegmatite boulder train has been identified.
Photo 1: Deep Overburden sampling (top) and newly discovered Spodumene pegmatite samples from Knockeen (bottom)
Target focus PLA 1597
The licence, which was awarded to Technology Minerals’ wholly owned subsidiary LRH Resources Limited (“LRH”) on 22 March 2022, forms part of the Company’s Leinster Property exploration block, which is operated under an exclusive Option and Earn-in agreement with Global Battery Metals Ltd (“GBML”), (TSXV: GBML; OTCQB: REZZF; Frankfurt: REZ) with no project expenditure required by the Company.
PLA 1597 was identified as prospective for lithium pegmatite potential by LRH and its exploration consultants Aurum Exploration Services (“Aurum”) following detailed desktop studies which outlined two proximal areas of spodumene-bearing pegmatite reported by previous operators in the mid-1970s. Initial prospecting confirmed a high grade spodumene bearing pegmatite boulder dispersion train during a due diligence prospecting survey at two localities (Figure 1). Results from the six samples returned values between 0.70% Li2O to 2.95% Li2O at Knockeen and Carriglead and have been reported previously.
Alex Stanbury, CEO of Technology Minerals, said: “We are pleased the exploration campaign at the Leinster Project in Ireland is progressing well, where previous work has confirmed high-grade lithium in spodumene pegmatites. The current programme, which is expected to be completed by the end of November, will help to determine target areas for follow up drilling and we look forward to receiving the assay results in due course.”
Figure 1: Map showing location of prospecting samples at Knockeen and Carriglead
Figure 2: Deep Overburden Sampling programme PLA 1597
Competent Person
All scientific and technical information in this announcement has been prepared under the supervision of EuroGeol Vaughan Williams M.Sc. P.Geo (a Principal of Aurum Exploration Services who currently provides exploration services to TM and to LRH), and a “qualified person” within the meaning of National Instrument 43-101. Vaughan Williams is also company secretary of LRH and a Director of the LRH Spanish subsidiary Asturmet Recursos S.L.
Enquiries
|
Technology Minerals Plc |
|
|
Robin Brundle, Executive Chairman Alexander Stanbury, Chief Executive Officer |
+44 20 4582 3500 |
|
Global Battery Metals Ltd. |
|
|
Michael Murphy BA, MBA, MSc., ICD, President & CEO |
+1 604-649-2350 |
|
|
|
|
Oberon Investments Limited |
|
|
Nick Lovering, Adam Pollock |
+44 (0)20 3179 0535 |
|
|
|
|
Arden Partners Plc |
|
|
Ruari McGirr, George Morgan |
+44 207 614 5900 |
|
Gracechurch Group |
|
|
Harry Chathli, Alexis Gore, Amy Stupavsky |
+44 20 4582 3500 |
Technology Minerals Plc
Technology Minerals is developing the UK’s first listed, sustainable circular economy for battery metals, using cutting-edge technology to recycle, recover, and re-use battery technologies for a renewable energy future. Technology Minerals is focused on extracting raw materials required for Li-ion batteries, whilst solving the ecological issue of spent Li-ion batteries, by recycling them for re-use by battery manufacturers. With the increasing global demand for battery metals to supply electrification, the group will explore, mine, and recycle metals from spent batteries. Further information on Technology Minerals is available atwww.technologyminerals.co.uk