2025 Q4 -tulosraportti
24 päivää sitten
‧30 min
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Yhtiötapahtumat
Datan lähde: Quartr| Seuraava tapahtuma | |
|---|---|
2026 Q1 -tulosraportti 8.6. |
| Menneet tapahtumat | ||
|---|---|---|
2025 Q4 -tulosraportti 30.3. |
Asiakkaat katsoivat myös
Shareville
Liity keskusteluun SharevillessäShareville on aktiivisten yksityissijoittajien yhteisö, jossa voit seurata muiden asiakkaiden kaupankäyntiä ja omistuksia.
Kirjaudu
·18.3.Terrestrial Energy: The Nuclear Power Revolution Driving Future AI Data Centers Terrestrial Energy Inc. (NASDAQ: IMSR) is an American company that is developing one of the world's most promising Generation IV reactors: the Integral Molten Salt Reactor (IMSR). The technology is a small modular reactor (SMR) that produces both high-temperature heat and electricity in a single plant – perfect for the massive energy crisis that AI and hyperscale data centers are facing. IMSR uses molten salt as both coolant and fuel medium instead of water. The reactor operates at 700 °C and low pressure, which provides 44–50 % higher efficiency than conventional nuclear power plants. It uses standard low-enriched uranium (under 5 % U-235), delivers up to 390 MW of electricity per plant, and can be factory-built in under four years. The plant is compact (only approx. 7 hectares), has built-in passive safety (cools itself down without power or human intervention) and produces under 5 g CO₂ equivalents per kWh over its entire lifecycle. Why IMSR is Tailor-Made for AI Data Centers AI training and data processing require always-on, carbon-free power on a gigawatt scale – something solar, wind, and batteries alone cannot achieve. Traditional nuclear power plants are too large, too expensive, and too slow to build near customers. IMSR solves this in several ways: - Co-location directly at the data center: Thanks to low pressure, a small safety zone, and modular design, IMSR can be placed right next to the facility – no long transmission lines or losses. The company already has dedicated sites and partnerships for this very purpose. - Reliable 24/7 Power + Heat: Delivers up to 390 MW of clean power to a single customer, while excess heat (585–700 °C) can be used for district heating, server cooling, or hybrid systems. - Competitive Price and Rapid Scaling: 50 % more power from the same reactor volume, 40 % less waste and shorter construction time than old reactors. This makes it possible to replace gas power plants or diesel backup that many data centers still use. - Partnerships Confirm the Trend: Agreements with Schneider Electric, EnergySolutions, Viaro Energy, and Ameresco explicitly focus on “zero-carbon solutions for large data centres” and AI load. Several American and European projects are under planning, including at Texas A&M and in the UK. The result? Data centers can get dedicated, stable, and emission-free power without waiting for new gas pipelines or wind farms – while dramatically reducing their carbon footprint. Thorium Opportunities – The Next Level of Sustainability IMSR is currently optimized for uranium to quickly enter the market without the need for HALEU fuel. But the molten salt platform itself is extremely flexible and has deep roots in thorium technology (founder David LeBlanc has long been involved in thorium-MSR research). In the future, the IMSR design can be adapted to a thorium fuel cycle (e.g., similar to the classic LFTR model). The advantages are enormous: - Thorium is 4 times more abundant than uranium and is found in large quantities globally. - Produces significantly less long-lived radioactive waste. - Higher proliferation resistance and the possibility to “burn” existing waste. Terrestrial Energy is now focusing on LEU to achieve commercialization in the 2030s, but the technology they are developing paves the way for thorium-based variants – which could make IMSR an even more sustainable solution in the long term. Conclusion In a world where AI data centers alone could end up using as much power as entire countries, Terrestrial Energy and IMSR are not just an energy solution – they are a game-changer for industrial decarbonization, data center growth, and global energy security. With low risk, high flexibility, and the opening for thorium in the future, the company is positioning itself as one of the strongest players in the new nuclear power chapter. The first commercial plant is expected in the early 2030s, but the partnerships and DOE support show that the future is already underway. For investors, industry, and society, IMSR (NASDAQ: IMSR) is worth following closely – it could be the key to powering AI without sacrificing the climate.
·7.1.For 2026, the development is unpredictable. In such a short term, one can know nothing. If it becomes popular on reddit, then it rises and vice versa. In the long term, i.e., 5 years, it is likely that it will be among the companies that perform well, since it is now the company that is furthest ahead.
·18.12.2025Does anyone know if there is available financial guidance from the company for the years ahead?
·23.12.2025I read a bit about them 'pre-ipo', but cannot confirm with certainty what I remember. As I understand it, the company has a strong team, but which first expects a finished reactor around the 2030s. Until then, there will probably be a good deal of dilution through capital raising.
Yllä olevat kommentit ovat peräisin Nordnetin sosiaalisen verkoston Sharevillen käyttäjiltä, eikä niitä ole muokattu eikä Nordnet ole tarkastanut niitä etukäteen. Ne eivät tarkoita, että Nordnet tarjoaisi sijoitusneuvoja tai sijoitussuosituksia. Nordnet ei ota vastuuta kommenteista.
Uutiset
Ei uutisia tällä hetkellä
Tämän sivun uutiset ja/tai sijoitussuositukset tai otteet niistä sekä niihin liittyvät linkit ovat mainitun tahon tuottamia ja toimittamia. Nordnet ei ole osallistunut materiaalin laatimiseen, eikä ole tarkistanut sen sisältöä tai tehnyt sisältöön muutoksia. Lue lisää sijoitussuosituksista.
2025 Q4 -tulosraportti
24 päivää sitten
‧30 min
Uutiset
Ei uutisia tällä hetkellä
Tämän sivun uutiset ja/tai sijoitussuositukset tai otteet niistä sekä niihin liittyvät linkit ovat mainitun tahon tuottamia ja toimittamia. Nordnet ei ole osallistunut materiaalin laatimiseen, eikä ole tarkistanut sen sisältöä tai tehnyt sisältöön muutoksia. Lue lisää sijoitussuosituksista.
Shareville
Liity keskusteluun SharevillessäShareville on aktiivisten yksityissijoittajien yhteisö, jossa voit seurata muiden asiakkaiden kaupankäyntiä ja omistuksia.
Kirjaudu
- ·18.3.Terrestrial Energy: The Nuclear Power Revolution Driving Future AI Data Centers Terrestrial Energy Inc. (NASDAQ: IMSR) is an American company that is developing one of the world's most promising Generation IV reactors: the Integral Molten Salt Reactor (IMSR). The technology is a small modular reactor (SMR) that produces both high-temperature heat and electricity in a single plant – perfect for the massive energy crisis that AI and hyperscale data centers are facing. IMSR uses molten salt as both coolant and fuel medium instead of water. The reactor operates at 700 °C and low pressure, which provides 44–50 % higher efficiency than conventional nuclear power plants. It uses standard low-enriched uranium (under 5 % U-235), delivers up to 390 MW of electricity per plant, and can be factory-built in under four years. The plant is compact (only approx. 7 hectares), has built-in passive safety (cools itself down without power or human intervention) and produces under 5 g CO₂ equivalents per kWh over its entire lifecycle. Why IMSR is Tailor-Made for AI Data Centers AI training and data processing require always-on, carbon-free power on a gigawatt scale – something solar, wind, and batteries alone cannot achieve. Traditional nuclear power plants are too large, too expensive, and too slow to build near customers. IMSR solves this in several ways: - Co-location directly at the data center: Thanks to low pressure, a small safety zone, and modular design, IMSR can be placed right next to the facility – no long transmission lines or losses. The company already has dedicated sites and partnerships for this very purpose. - Reliable 24/7 Power + Heat: Delivers up to 390 MW of clean power to a single customer, while excess heat (585–700 °C) can be used for district heating, server cooling, or hybrid systems. - Competitive Price and Rapid Scaling: 50 % more power from the same reactor volume, 40 % less waste and shorter construction time than old reactors. This makes it possible to replace gas power plants or diesel backup that many data centers still use. - Partnerships Confirm the Trend: Agreements with Schneider Electric, EnergySolutions, Viaro Energy, and Ameresco explicitly focus on “zero-carbon solutions for large data centres” and AI load. Several American and European projects are under planning, including at Texas A&M and in the UK. The result? Data centers can get dedicated, stable, and emission-free power without waiting for new gas pipelines or wind farms – while dramatically reducing their carbon footprint. Thorium Opportunities – The Next Level of Sustainability IMSR is currently optimized for uranium to quickly enter the market without the need for HALEU fuel. But the molten salt platform itself is extremely flexible and has deep roots in thorium technology (founder David LeBlanc has long been involved in thorium-MSR research). In the future, the IMSR design can be adapted to a thorium fuel cycle (e.g., similar to the classic LFTR model). The advantages are enormous: - Thorium is 4 times more abundant than uranium and is found in large quantities globally. - Produces significantly less long-lived radioactive waste. - Higher proliferation resistance and the possibility to “burn” existing waste. Terrestrial Energy is now focusing on LEU to achieve commercialization in the 2030s, but the technology they are developing paves the way for thorium-based variants – which could make IMSR an even more sustainable solution in the long term. Conclusion In a world where AI data centers alone could end up using as much power as entire countries, Terrestrial Energy and IMSR are not just an energy solution – they are a game-changer for industrial decarbonization, data center growth, and global energy security. With low risk, high flexibility, and the opening for thorium in the future, the company is positioning itself as one of the strongest players in the new nuclear power chapter. The first commercial plant is expected in the early 2030s, but the partnerships and DOE support show that the future is already underway. For investors, industry, and society, IMSR (NASDAQ: IMSR) is worth following closely – it could be the key to powering AI without sacrificing the climate.
- ·7.1.For 2026, the development is unpredictable. In such a short term, one can know nothing. If it becomes popular on reddit, then it rises and vice versa. In the long term, i.e., 5 years, it is likely that it will be among the companies that perform well, since it is now the company that is furthest ahead.
- ·18.12.2025Does anyone know if there is available financial guidance from the company for the years ahead?·23.12.2025I read a bit about them 'pre-ipo', but cannot confirm with certainty what I remember. As I understand it, the company has a strong team, but which first expects a finished reactor around the 2030s. Until then, there will probably be a good deal of dilution through capital raising.
Yllä olevat kommentit ovat peräisin Nordnetin sosiaalisen verkoston Sharevillen käyttäjiltä, eikä niitä ole muokattu eikä Nordnet ole tarkastanut niitä etukäteen. Ne eivät tarkoita, että Nordnet tarjoaisi sijoitusneuvoja tai sijoitussuosituksia. Nordnet ei ota vastuuta kommenteista.
Tarjoustasot
Määrä
Osto
-
Myynti
Määrä
-
Viimeisimmät kaupat
| Aika | Hinta | Määrä | Ostaja | Myyjä |
|---|---|---|---|---|
| - | - | - | - |
Välittäjätilasto
Dataa ei löytynyt
Asiakkaat katsoivat myös
Yhtiötapahtumat
Datan lähde: Quartr| Seuraava tapahtuma | |
|---|---|
2026 Q1 -tulosraportti 8.6. |
| Menneet tapahtumat | ||
|---|---|---|
2025 Q4 -tulosraportti 30.3. |
2025 Q4 -tulosraportti
24 päivää sitten
‧30 min
Uutiset
Ei uutisia tällä hetkellä
Tämän sivun uutiset ja/tai sijoitussuositukset tai otteet niistä sekä niihin liittyvät linkit ovat mainitun tahon tuottamia ja toimittamia. Nordnet ei ole osallistunut materiaalin laatimiseen, eikä ole tarkistanut sen sisältöä tai tehnyt sisältöön muutoksia. Lue lisää sijoitussuosituksista.
Yhtiötapahtumat
Datan lähde: Quartr| Seuraava tapahtuma | |
|---|---|
2026 Q1 -tulosraportti 8.6. |
| Menneet tapahtumat | ||
|---|---|---|
2025 Q4 -tulosraportti 30.3. |
Shareville
Liity keskusteluun SharevillessäShareville on aktiivisten yksityissijoittajien yhteisö, jossa voit seurata muiden asiakkaiden kaupankäyntiä ja omistuksia.
Kirjaudu
- ·18.3.Terrestrial Energy: The Nuclear Power Revolution Driving Future AI Data Centers Terrestrial Energy Inc. (NASDAQ: IMSR) is an American company that is developing one of the world's most promising Generation IV reactors: the Integral Molten Salt Reactor (IMSR). The technology is a small modular reactor (SMR) that produces both high-temperature heat and electricity in a single plant – perfect for the massive energy crisis that AI and hyperscale data centers are facing. IMSR uses molten salt as both coolant and fuel medium instead of water. The reactor operates at 700 °C and low pressure, which provides 44–50 % higher efficiency than conventional nuclear power plants. It uses standard low-enriched uranium (under 5 % U-235), delivers up to 390 MW of electricity per plant, and can be factory-built in under four years. The plant is compact (only approx. 7 hectares), has built-in passive safety (cools itself down without power or human intervention) and produces under 5 g CO₂ equivalents per kWh over its entire lifecycle. Why IMSR is Tailor-Made for AI Data Centers AI training and data processing require always-on, carbon-free power on a gigawatt scale – something solar, wind, and batteries alone cannot achieve. Traditional nuclear power plants are too large, too expensive, and too slow to build near customers. IMSR solves this in several ways: - Co-location directly at the data center: Thanks to low pressure, a small safety zone, and modular design, IMSR can be placed right next to the facility – no long transmission lines or losses. The company already has dedicated sites and partnerships for this very purpose. - Reliable 24/7 Power + Heat: Delivers up to 390 MW of clean power to a single customer, while excess heat (585–700 °C) can be used for district heating, server cooling, or hybrid systems. - Competitive Price and Rapid Scaling: 50 % more power from the same reactor volume, 40 % less waste and shorter construction time than old reactors. This makes it possible to replace gas power plants or diesel backup that many data centers still use. - Partnerships Confirm the Trend: Agreements with Schneider Electric, EnergySolutions, Viaro Energy, and Ameresco explicitly focus on “zero-carbon solutions for large data centres” and AI load. Several American and European projects are under planning, including at Texas A&M and in the UK. The result? Data centers can get dedicated, stable, and emission-free power without waiting for new gas pipelines or wind farms – while dramatically reducing their carbon footprint. Thorium Opportunities – The Next Level of Sustainability IMSR is currently optimized for uranium to quickly enter the market without the need for HALEU fuel. But the molten salt platform itself is extremely flexible and has deep roots in thorium technology (founder David LeBlanc has long been involved in thorium-MSR research). In the future, the IMSR design can be adapted to a thorium fuel cycle (e.g., similar to the classic LFTR model). The advantages are enormous: - Thorium is 4 times more abundant than uranium and is found in large quantities globally. - Produces significantly less long-lived radioactive waste. - Higher proliferation resistance and the possibility to “burn” existing waste. Terrestrial Energy is now focusing on LEU to achieve commercialization in the 2030s, but the technology they are developing paves the way for thorium-based variants – which could make IMSR an even more sustainable solution in the long term. Conclusion In a world where AI data centers alone could end up using as much power as entire countries, Terrestrial Energy and IMSR are not just an energy solution – they are a game-changer for industrial decarbonization, data center growth, and global energy security. With low risk, high flexibility, and the opening for thorium in the future, the company is positioning itself as one of the strongest players in the new nuclear power chapter. The first commercial plant is expected in the early 2030s, but the partnerships and DOE support show that the future is already underway. For investors, industry, and society, IMSR (NASDAQ: IMSR) is worth following closely – it could be the key to powering AI without sacrificing the climate.
- ·7.1.For 2026, the development is unpredictable. In such a short term, one can know nothing. If it becomes popular on reddit, then it rises and vice versa. In the long term, i.e., 5 years, it is likely that it will be among the companies that perform well, since it is now the company that is furthest ahead.
- ·18.12.2025Does anyone know if there is available financial guidance from the company for the years ahead?·23.12.2025I read a bit about them 'pre-ipo', but cannot confirm with certainty what I remember. As I understand it, the company has a strong team, but which first expects a finished reactor around the 2030s. Until then, there will probably be a good deal of dilution through capital raising.
Yllä olevat kommentit ovat peräisin Nordnetin sosiaalisen verkoston Sharevillen käyttäjiltä, eikä niitä ole muokattu eikä Nordnet ole tarkastanut niitä etukäteen. Ne eivät tarkoita, että Nordnet tarjoaisi sijoitusneuvoja tai sijoitussuosituksia. Nordnet ei ota vastuuta kommenteista.
Tarjoustasot
Määrä
Osto
-
Myynti
Määrä
-
Viimeisimmät kaupat
| Aika | Hinta | Määrä | Ostaja | Myyjä |
|---|---|---|---|---|
| - | - | - | - |
Välittäjätilasto
Dataa ei löytynyt