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Ethiopia Technology News API
Get the live top technology headlines from Ethiopia with our JSON API.
Get API key for the Ethiopia Technology News APIAPI Demonstration
This example demonstrates the HTTP request to make and the JSON response you will receive when you use the news api to get the top headlines from Ethiopia.
GET
https://gnews.io/api/v4/top-headlines?country=et&category=technology&apikey=API_KEY
{
"totalArticles": 2809,
"articles": [
{
"id": "629f721ff238ea56517a53bd5b6609a4",
"title": "WHISKAS NZ lets cats order their own dinner with Uber Eats ‘Pocket Dial’ launch via AMV BBDO",
"description": "Cat owners across New Zealand can collectively breathe a sigh of relief today, thanks to a world-first partnership between Whiskas and Uber Eats, created by AMV BBDO, that finally lets cats do what they've been trying to do all along - order dinner. Whiskas 'Pocket Dial' is a limited-edition button",
"content": "Cat owners across New Zealand can collectively breathe a sigh of relief today, thanks to a world-first partnership between Whiskas and Uber Eats, created by AMV BBDO, that finally lets cats do what they’ve been trying to do all along – order dinner. ... [3047 chars]",
"url": "https://campaignbrief.com/whiskas-nz-lets-cats-order-their-own-dinner-with-uber-eats-pocket-dial-launch-via-amv-bbdo/",
"image": "https://campaignbrief.com/wp-content/uploads/2026/03/Whiskas92.jpg",
"publishedAt": "2026-03-11T02:05:24Z",
"lang": "en",
"source": {
"id": "ff436bb70788f14ea8d901e786d67198",
"name": "Campaign Brief",
"url": "https://campaignbrief.com"
}
},
{
"id": "c994baf4f40e40929df661d12de7881b",
"title": "Apple Spars with China’s Oppo During Watch Trade Secrets Hearing",
"description": "Apple Inc. exchanged fiery jabs with Chinese smartphone maker Oppo at a Tuesday court hearing about the tech giant’s bid to block an ex-Apple Watch team member from working at the competitor.",
"content": "Apple Inc. exchanged fiery jabs with Chinese smartphone maker Oppo at a Tuesday court hearing about the tech giant’s bid to block an ex-Apple Watch team member from working at the competitor.\nApple has already been irreparably harmed by ex-employee C... [388 chars]",
"url": "https://news.bloomberglaw.com/ip-law/apple-spars-with-chinas-oppo-during-watch-trade-secrets-hearing",
"image": "https://bwrite-static.bloombergindustry.com/dims4/default/ea781e3/2147483647/crop/5669x2185+0+1676/resize/960x370%3E/quality/90/?url=https%3A%2F%2Fbloomberg-bna-brightspot.s3.us-east-1.amazonaws.com%2F43%2F55%2Fa87cfd30461abe7649c8f256c8b3%2Fgettyimages-1421693844.jpg",
"publishedAt": "2026-03-11T00:41:00Z",
"lang": "en",
"source": {
"id": "9350e70104df75d728509b7011cd599c",
"name": "Bloomberg Law News",
"url": "https://news.bloomberglaw.com"
}
},
{
"id": "7a9f8e116523961b0863fb22c5ee6846",
"title": "Alcohol group migration by proximity-enhanced H atom abstraction",
"description": "Subtle changes in molecular structure can lead to profound changes in molecular function. However, even minor structural refinements can require the complete re-synthesis of a target molecule, adding time and cost to molecular design campaigns1. Recently, editing methods have emerged targeting subtle molecular perturbations, including atomic substitution, stereocenter inversion and functional group repositioning2. These precision tools hold the potential to streamline the optimization of molecular function by fine-tuning molecular structure. Here we report an editing method that enables the migration of common alcohol functional groups to proximal sites with predictable stereo- and regiochemical outcomes. The reaction proceeds through a 1,2-acyloxy radical migration step under reversible H atom transfer catalysis conditions promoted by excited state decatungstate polyanion. Proximity effects arising from non-covalent interactions between substrate and reagent enable efficient radical formation at polarity-mismatched positions. Application of this tool at a late synthetic stage allows for the precise re-positioning of alcohol functional groups, while integration with common alcohol group installation methods provides new synthetic strategies to access challenging oxygenation patterns.",
"content": "Subtle changes in molecular structure can lead to profound changes in molecular function. However, even minor structural refinements can require the complete re-synthesis of a target molecule, adding time and cost to molecular design campaigns1. Rece... [1054 chars]",
"url": "https://www.nature.com/articles/s41586-026-10347-4?error=cookies_not_supported&code=3e478e52-aa51-46b5-a076-6598a25d9abb",
"image": "https://www.nature.com/static/images/favicons/nature/favicon-48x48-b52890008c.png",
"publishedAt": "2026-03-10T23:40:55Z",
"lang": "en",
"source": {
"id": "7abf0df285fbe93cdccffcc7c4088737",
"name": "Nature",
"url": "https://www.nature.com"
}
}
]
}