- Gene mapping and mRNA breakthroughs extended life expectancy, accelerating treatments from CRISPR-based therapies to rapidly developed COVID-19 vaccines
- Reusable rockets and long-running Mars missions transformed space exploration by lowering costs and extending scientific reach
ISTANBUL
When the calendar flipped to Jan. 1, 2000, the world was braced for catastrophe.
The feared Y2K computer bug – a glitch in legacy software where two-digit year codes like "99" risked interpreting "00" as 1900, potentially triggering cascading failures in banks, power grids, and transportation systems – failed to materialize. But the anticlimactic start marked the beginning of a period of rapid technological change that would reshape daily life, transform medicine, alter how people communicate and work, and expand humanity’s reach from the microscopic scale of genes to the edges of the universe.
From pocket-sized computers and life-saving vaccines to reusable rockets, artificial intelligence and breakthroughs that restored movement and communication to paralyzed patients, the first quarter of the 21st century has been one of the most inventive periods in human history.
By 2025, more than 5.5 billion people were connected to the internet, up from about 360 million at the turn of the millennium, accelerating the globalization of information, culture, and economic activity.
Over 25 years, these advances went far beyond serving as useful tools. They reordered how societies function, how power is distributed, and how people experience everyday life.
From screens to pockets: The smartphone era
The invention that arguably touched more lives than any other arrived in June 2007.
Apple’s iPhone was not the first smartphone, but it set new standards for design and usability, helping to redefine how people interacted with computers. Priced at $499 or $599 at launch, it offered features considered modest by today’s standards.
Eighteen years later, Apple has sold more than 3 billion iPhones, and smartphones have become essential tools for communication, navigation, work, photography, shopping, and entertainment.
The rise of smartphones gave birth to the app economy, transforming how people hail rides, manage finances, access news, and form relationships. By 2024, Apple said its App Store ecosystem had facilitated $1.3 trillion in developer sales.
Advances in touchscreen technology, operating systems, and high-density lithium-ion batteries evolved alongside smartphones, placing computing power once confined to entire rooms into devices that fit in a pocket.
Social media and the user-generated web
As smartphones spread, online platforms built around user-generated content expanded rapidly.
YouTube, founded in 2005, marked a cultural shift by allowing users to upload, share, and watch video with unprecedented ease. It was followed by social networks such as Facebook, Instagram, and WhatsApp that radically changed how people communicate.
From the Arab Spring uprisings of the early 2010s to global protest movements a decade later, social media demonstrated its ability to mobilize people in real time. At the same time, concerns grew over misinformation, online addiction and deteriorating mental health, particularly among young users.
Despite these challenges, billions of people now spend hours each day on digital platforms, which have reshaped everything from journalism to politics and education.
The same ecosystem fueled the rise of online gaming, livestreaming, and creator-driven economies, while app-based services such as Uber and Airbnb disrupted labor and hospitality markets, sparking debates over worker rights, regulation, and housing affordability.
Blockchain technologies and decentralized finance also emerged, hoping to challenge traditional banking systems, while non-fungible tokens sparked debates over digital ownership and the value of art.
Medicine and health
Global life expectancy significantly increased from 2000 to 2024, rising from around 68 years to over 73 years.
One major development in the healthcare field was the completion of the Human Genome Project in 2003, which mapped the blueprint of human DNA, paving the way for genetic research and personalized medicine. Consumer DNA testing soon followed, with companies such as 23andMe giving millions access to information about ancestry and health risks.
The discovery of CRISPR as a gene editing tool was another leap forward, enabling precise DNA modifications and opening doors to new treatments. In 2023, the first CRISPR-based therapy was approved to treat sickle cell disease, correcting a genetic defect that affects more than 7 million people worldwide.
More futuristic technology came into use. Capsule endoscopy with swallowable cameras replaced invasive procedures, while artificial organs and retinal implants saved and improved countless lives.
Researchers also demonstrated that robotic exoskeletons could help paraplegic patients regain movement, and experimental brain implants restored communication between thoughts and physical actions in patients with paralysis.
Automated insulin delivery systems transformed diabetes care by continuously monitoring blood glucose and administering insulin, illustrating how software and sensors could integrate with the human body.
In 2023, drugs like Ozempic and Wegovy thrust metabolic medicine into the spotlight. Originally designed for diabetes, semaglutides proved effective at promoting weight loss and changed public conversations around obesity, health, and body image. Global demand became so high by 2024 that it had a measurable impact on the GDP of Denmark, where manufacturer Novo Nordisk is based.
Yet nothing tested modern science like the COVID-19 pandemic. In 2020, mRNA vaccines were developed, tested, and authorized in under a year, dramatically shortening timelines that once took a decade or more.
That success propelled mRNA research into vaccines for influenza, RSV, and cancer, marking one of the fastest translations of scientific discovery into lifesaving treatment.
AI comes of age
IBM’s Watson stunned audiences in 2011 by outperforming human champions on the televised quiz show Jeopardy, marking a symbolic milestone for AI.
Then, in late 2020, the technology achieved another breakthrough when the AlphaFold system developed by Google Deep Mind produced a solution to protein folding – a 50-year-old problem in biology. Its creators were awarded the 2024 Nobel Prize in Chemistry.
Then, in late 2022, generative AI entered public life with a bang. ChatGPT was released, reaching 100 million users in a matter of weeks. In April 2023, the technology outperformed 90% of aspiring lawyers taking the US bar exam, convincing markets that AI was on an exponential curve.
By 2025, generative AI tools have reshaped how work is performed across sectors, with massive financial and geopolitical impacts. It is also raising questions about education, ethics, labor impacts, misinformation, and regulation.
Space and fundamental science
The Large Hadron Collider, operational since 2008, answered one of physics’ deepest questions by detecting the Higgs boson in 2012, which explains how fundamental particles acquire mass.
In 2015, the LIGO observatory detected gravitational waves – ripples in the fabric of spacetime predicted by Einstein a century earlier – opening a new way to listen to the universe's most violent events, like black hole collisions.
NASA’s James Webb Space Telescope, launched in 2021, allowed scientists to look back into the universe’s infancy. With its massive mirror and infrared vision, it has already delivered images of distant galaxies and exoplanets that have redefined humanity’s cosmic perspective.
Mars exploration also advanced, with NASA’s Curiosity rover — a car-sized robotic explorer that landed on the Red Planet in 2012 — continuing to uncover evidence that Mars once had conditions suitable for life.
Private companies also transformed access to space. In 2017, SpaceX successfully reused an orbital-class rocket, reducing launch costs and expanding commercial spaceflight beyond government programs.
The climate, energy, and survival
Technological innovation also played a role in addressing global survival challenges and reducing dependence on fossil fuels.
The transition from incandescent bulbs to LEDs – sparked by Philips’ 2009 breakthrough – dramatically reduced global energy use.
Solar photovoltaic panels also became one of the most significant climate technologies of the century. Between 2010 and 2023, the cost of solar energy plummeted by nearly 90%, making it the cheapest source of new electricity in most of the world.
Wind power also saw explosive growth, jumping from around 17 gigawatts of production in 2000 to 1,136 gigawatts in 2024, according to the Global Wind Energy Council.
Electric vehicles, led by Tesla’s Model S in 2012, also boomed in popularity and continue to grow in market share.
This shift toward clean energy was accelerated by the 2015 Paris Agreement, where 196 parties committed to limiting global warming, marking the first time nearly all nations agreed on a common framework to fight climate change.
Facing biodiversity loss, the Svalbard Global Seed Vault, opened in 2008 in the Arctic archipelago of Svalbard, was designed to preserve crop diversity. It now stores about 1.3 million seed samples as a safeguard against war, climate change, and natural disasters.
Everyday life
Not every defining invention was about survival. Some were about joy.
The Roomba, a robotic vacuum, turned chores into automation, though perhaps the technology’s ubiquity forced its company to declare bankruptcy. The Nintendo Switch reimagined gaming with seamless portability, selling over 150 million units. Fenty Beauty revolutionized cosmetics by launching with 40 inclusive foundation shades, forcing an entire industry to follow.
Navigation was also transformed. Google Maps, launched in 2005, became ubiquitous with the rise of smartphones. Its Street View feature allowed users to explore streets around the world from the comfort of their homes. This digital map and others have almost made paper maps – and even the idea of getting lost – relics of the past.
At the same time, streaming and piracy upended music, film, and television. Napster gave way to Spotify, DVDs to Netflix, and scheduled viewing to on-demand culture.
Crowdfunding platforms such as Kickstarter enabled creators to bypass traditional financing, funding everything from technology startups to award-winning films.
What lies ahead
Looking back from 2025, the first quarter of the 21st century reads like a cascade of acceleration – faster computing, faster science, faster change.
Many of these advances have brought profound benefits, while also introducing new risks, from privacy erosion and inequality to environmental strain and political upheaval.
As the next part of the century unfolds, the challenge will not be whether innovation continues, but how societies choose to guide it.