‘Most Beautiful Building on Earth’ Opens in Dubai

View of Dubai's Museum of the Future - Karim SAHIB AFP
View of Dubai's Museum of the Future - Karim SAHIB AFP
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‘Most Beautiful Building on Earth’ Opens in Dubai

View of Dubai's Museum of the Future - Karim SAHIB AFP
View of Dubai's Museum of the Future - Karim SAHIB AFP

Dubai opened its Museum of the Future on Tuesday, a spectacular structure it is touting as the world's most beautiful building.

The museum, a seven-storey hollow silver ellipse decorated with Arabic calligraphy of quotes from Dubai's ruler, Sheikh Mohammed bin Rashid Al-Maktoum, and thousands of metres (yards) of LED lights, takes pride of place on Sheikh Zayed Road, the city's main highway.

While its contents are yet to be revealed, it will exhibit design and technology innovations, taking the visitor on a "journey to the year 2071", organizers said, AFP reported.

Roadside signboards described the museum -- just minutes away from the world's tallest construction, the Burj Khalifa -- as the "most beautiful building on Earth" ahead of its gala opening.

It is the latest addition to the United Arab Emirates' (UAE) collection of flashy architecture and comes after the $7-billion Expo world fair, featuring a swathe of futuristic designs, opened on Dubai's outskirts on 30 September.

The UAE's capital Abu Dhabi is home to a branch of the Louvre, whose license was extended by a decade last year to 2047 at a cost of 165 million euros ($186 million).

Since French President Emmanuel Macron opened the Louvre Abu Dhabi in late 2017, it attracted some two million visitors in its first two years, before Covid hit.



Google-Backed Coalition to Help Scale Ocean, Rock Carbon Removals

A Google logo is seen at a company research facility in Mountain View, California, US, May 13, 2025. (Reuters)
A Google logo is seen at a company research facility in Mountain View, California, US, May 13, 2025. (Reuters)
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Google-Backed Coalition to Help Scale Ocean, Rock Carbon Removals

A Google logo is seen at a company research facility in Mountain View, California, US, May 13, 2025. (Reuters)
A Google logo is seen at a company research facility in Mountain View, California, US, May 13, 2025. (Reuters)

A coalition backed by Google, Stripe and Shopify will spend $1.7 million to buy carbon removal credits from three early stage firms on behalf of the tech giants to help scale up the nascent markets, an executive told Reuters.

The world is expected to need to suck between five and 10 billion tons a year of carbon emissions out of the atmosphere by mid-century to reach its climate goals, yet at the moment most technologies are small scale.

The coalition, called Frontier, is also backed by H&M Group, JPMorgan Chase and Salesforce, among others.

The group, which aggregates demand from its members, will spend $1.7 million to buy credits from US-firm Karbonetiq, Italy-based Limenet and Canadian firm pHathom.

By contracting to buy early, the firms are better able to hire, raise finance and get the technologies off the ground, said Hannah Bebbington, head of deployment at Frontier.

"It allows companies to demonstrate commercial viability," she said.

Frontier's support for these early stage firms, which aim to lock emissions away in the ocean or in rocks and industrial waste, marks its fifth series of commitments.

Frontier, which was set up in 2022, aims to invest at least $1 billion in carbon removal credits between 2022 and 2030. It has already committed $600 million, some on the series of pre-purchases and the bulk on a series of off-take agreements with larger firms. Last week, it agreed to pay $41 million for 116,000 tons from waste biomass firm Arbor.

For oceans, the aim is to increase the alkalinity of the water, helping it to lock away more carbon emissions. This is often done by adding "quicklime", made from limestone.

For the mineralization technologies, meanwhile, projects attempt to speed up the process whereby rocks and industrial waste naturally absorb carbon dioxide, for example by crushing up the material to create a larger surface area.

Bebbington said both technologies had the potential to be impactful because they could be scaled quickly and cheaply.

"We think (they) are extremely compelling from that really cheap at really large scale perspective."