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srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5659868022112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D651e4f242e13d54ea0b4d0a0c57033ea&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5659868022112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D651e4f242e13d54ea0b4d0a0c57033ea&w=384&q=75 2x" 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srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5654286021112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3De4cff212f2510b6cced5a0591ef1b5d9&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5654286021112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3De4cff212f2510b6cced5a0591ef1b5d9&w=384&q=75 2x" 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data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC213670R21C24A1000000","link-to-URL":"/tech-foresight/article/DGXZQOUC213670R21C24A1000000/"}" href="/prime/tech-foresight/article/DGXZQOUC213670R21C24A1000000"><div class="card_date__3gUsN"><time dateTime="2024-11-24T20:00:00.000Z">11月25日</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">大同特殊鋼、モーター新材料　高出力で空飛ぶクルマに</p><p class="card_excerpt__tMda3">大同特殊鋼はモーターのコア（鉄心）材として通常使用される電磁鋼板よりも高性能な新材料を開発した。モーターの出力を左右する飽和磁束密度が高く、加工性にも優れる。モーターの小型・軽量化や高出力化につながる。空飛ぶクルマと呼ばれるeVTOL（電動垂直離着陸）機やドローン、産業用ロボットなどへの採用を狙う。新材料で試作したモーターコアを「第11回メタルジャパン（高機能金属展）」（2024年10月</p></div><div class="card_imageContainer__QdZbL"><img alt="" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" 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data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC221XO0S4A121C2000000","link-to-URL":"/tech-foresight/article/DGXZQOUC221XO0S4A121C2000000/"}" href="/prime/tech-foresight/article/DGXZQOUC221XO0S4A121C2000000"><div class="card_date__3gUsN"><time dateTime="2024-11-24T20:00:00.000Z">11月25日</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">ラピダスに「修羅場」　2nm半導体、急ピッチで試作へ</p><p class="card_excerpt__tMda3">2025年は先端半導体の受託生産を目指すRapidus（ラピダス、東京・千代田）にとって、勝負の1年になる。2027年の量産開始に向け、2nm（ナノメートル）世代の半導体のパイロット（試験）生産を2025年4月に始める計画だ。量産までに5兆円が必要とされる資金の調達や顧客開拓にも前進が求められる。「TSMC（台湾積体電路製造）は素晴らしいが、我々の事業運営に弾性を持たせるには供給網（サプライチ</p></div><div class="card_imageContainer__QdZbL"><img alt="ラピダスの小池氏は「世界一のスピードで半導体を造る」と話す" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" 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data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC21A0W0R21C24A1000000","link-to-URL":"/tech-foresight/article/DGXZQOUC21A0W0R21C24A1000000/"}" href="/prime/tech-foresight/article/DGXZQOUC21A0W0R21C24A1000000"><div class="card_date__3gUsN"><time dateTime="2024-11-21T20:00:00.000Z">11月22日</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">【特許】浜松ホトニクス、レーザー光の品質高める封体</p><p class="card_excerpt__tMda3">「特許ウオッチ」では、NIKKEI Tech ForesightとPatentfieldが共同開発したアルゴリズムに基づいて、重要性が高いと考えられる特許出願を紹介します。対象は日本の特許出願です。アルゴリズムでは「技術の革新性」「出願人にとっての緊急性」「国際出願」「他者の関心」などを重視しています。リーガルステータスは掲載時点のものです。〈概要〉レーザー励起光源などに適用される発光封体に関す</p></div><div class="card_imageContainer__QdZbL"><img alt="★BP記事専用★特許ウオッチ" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5654208021112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3Da4e21a3e905a7e847031c892944e9cc1&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5654208021112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3Da4e21a3e905a7e847031c892944e9cc1&w=384&q=75 2x" src="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5654208021112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3Da4e21a3e905a7e847031c892944e9cc1&w=384&q=75"/><span class="card_credit__k14q5"></span></div></div></a><div class="stream-article-list_tagBarContainer__QF5_l"><div class="tag-bar-with-audio-save-button_container__dS_9P"><ul class="tags_tagList__kPgLB"><li class="tags_tag__wSkU2"><div class="ellipsis-button_ellipsisButton__cIsYK">…</div></li></ul><div class="tag-bar-with-audio-save-button_buttonList__RxWNu"></div></div></div></div></div><div class="stream-article-blocks_article__5vAqO"><div><a class="card_content__U9soM" data-rn-track="section-article" data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC1550B0V11C24A1000000","link-to-URL":"/tech-foresight/article/DGXZQOUC1550B0V11C24A1000000/"}" href="/prime/tech-foresight/article/DGXZQOUC1550B0V11C24A1000000"><div class="card_date__3gUsN"><time dateTime="2024-11-21T20:00:00.000Z">11月22日</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">東北大など、酸化亜鉛で量子ドット　新材料として浮上</p><p class="card_excerpt__tMda3">東北大学などの研究グループは、酸化物半導体の酸化亜鉛（ZnO）を用いて、量子デバイスの基本構造である電界制御量子ドットを「初めて」（研究グループ）形成し、その電気伝導特性を測定した。加えて、量子ドット内の電子数の偶奇によらない近藤効果を確認し、その特徴的な温度依存性、磁場依存性を観測した。新しい量子デバイスの開発に活用が期待される。物質・材料研究機構（NIMS）や東京大学などと共同で研究した。</p></div><div class="card_imageContainer__QdZbL"><img alt="" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5627857015112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3Dc988f84f85e91ccc04b6c40fb75e63a6&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5627857015112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3Dc988f84f85e91ccc04b6c40fb75e63a6&w=384&q=75 2x" 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data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC214420R21C24A1000000","link-to-URL":"/tech-foresight/article/DGXZQOUC214420R21C24A1000000/"}" href="/prime/tech-foresight/article/DGXZQOUC214420R21C24A1000000"><div class="card_date__3gUsN"><time dateTime="2024-11-21T20:00:00.000Z">11月22日</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">半導体は「3.5D」へ　AMDがNVIDIAに先行、AI対応で</p><p class="card_excerpt__tMda3">3.5D（次元）は高性能コンピューティング（HPC）やAI（人工知能）向けの次世代半導体パッケージ技術を指す。2.5Dと3Dを融合した造語で、ハイブリッドボンディング（ハイブリッド接合）と呼ぶチップ積層技術を使う。米AMD（アドバンスト・マイクロ・デバイセズ）や台湾積体電路製造（TSMC）が開発を主導し、スーパーコンピューターやデータセンター向けプロセッサーで導入が始まった。高性能コンピューテ</p></div><div class="card_imageContainer__QdZbL"><img alt="" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" srcSet="/prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5651627021112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D932c63f5a52aafeef3ff6a9b2e483a6e&w=256&q=75 1x, /prime/.resources/_next/image?url=https%3A%2F%2Farticle-image-ix.nikkei.com%2Fhttps%253A%252F%252Fimgix-proxy.n8s.jp%252FDSXZQO5651627021112024000000-1.jpg%3Fixlib%3Djs-2.3.2%26w%3D600%26h%3D375%26auto%3Dformat%252Ccompress%26fit%3Dcrop%26bg%3DFFFFFF%26fp-x%3D0.5%26fp-y%3D0.5%26fp-z%3D1%26crop%3Dfocalpoint%26s%3D932c63f5a52aafeef3ff6a9b2e483a6e&w=384&q=75 2x" 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data-rn-track-value="{"link-to-kiji-id-enc":"DGXZQOUC201XH0Q4A121C2000000","link-to-URL":"/tech-foresight/article/DGXZQOUC201XH0Q4A121C2000000/"}" href="/prime/tech-foresight/article/DGXZQOUC201XH0Q4A121C2000000"><div class="card_date__3gUsN"><time dateTime="2024-11-21T20:00:00.000Z">11月22日</time></div><div class="card_cardContent__6Mel9"><div><p class="card_title__JZXqr">NECとAGC、ガラス活用の屋内5G基地局　景観に配慮</p><p class="card_excerpt__tMda3">NECとAGCは、ガラスアンテナと太陽光発電が可能なガラス素材を用いた5G（第5世代移動通信）基地局の有効性を確かめた。基地局の稼働に必要な電力の約30%を太陽光発電でまかなう。この基地局によって、設置場所を確保しやすくしたり、景観に悪影響が出ないようにしたりする。有効性を実証したのは、「景観配慮型サステナブル基地局」と呼ぶもの。太陽光発電に対応するBIPV（Building-Integrat</p></div><div class="card_imageContainer__QdZbL"><img alt="" loading="lazy" width="160" height="100" decoding="async" data-nimg="1" style="color:transparent;object-fit:contain" 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\u0026 Soffa Industries（キューリック・アンド・ソファ・インダストリーズ、K\u0026S）は2024年11月13日、ロームと共同で新たなハイブリッドボンディング（ハイブリッド接合）技術を開発したと発表した。既","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC21A7Y0R21C24A1000000","title":"【特許】レゾナック、半導体用接着剤　フィレット抑制","createdAt":"2024-11-25T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5654286021112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5654286021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=7960f745d695eaf071234f3858360451","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5654286021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=0567d3bb13868b0b8098b7de17c148f0","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5654286021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=8ea6951f0a5850b7d7244dc8e89bb8ec","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5654286021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=7bf4ab48ab9929f6e7dea5ee818bb597","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5654286021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=bdf68938a4c2260adc6e9bb9f2b5fe24","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5654286021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=600\u0026h=375\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=e4cff212f2510b6cced5a0591ef1b5d9","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5654286021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=700\u0026h=437\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=471f8865795defe390b56b1ad22531f2","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5654286021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=800\u0026h=500\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=c7aca1126ffb8cf2e4bcca2a6be2948c","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5654286021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=1600\u0026h=1000\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=10929d69af21a2f05c8402ad7352f186"},"images2x":{"use2x":false},"alt":"★BP記事専用★特許ウオッチ","credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001007","label":"知財","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C2004008","label":"特許ウオッチ","topicType":"prime-topic","isHonseki":false,"type":"topic"},{"id":"C200100B","label":"データ・調査","topicType":"prime-subsection","isHonseki":false,"type":"subsection"},{"id":"C200100C","label":"半導体","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"「特許ウオッチ」では、NIKKEI Tech ForesightとPatentfieldが共同開発したアルゴリズムに基づいて、重要性が高いと考えられる特許出願を紹介します。対象は日本の特許出願です。アルゴリズムでは「技術の革新性」「出願人にとっての緊急性」「国際出願」「他者の関心」などを重視しています。リーガルステータスは掲載時点のものです。\n〈概要〉半導体用フィルム状接着剤に関する発明。半導体チ","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC228TF0S4A121C2000000","title":"阪大、波長可変な青色半導体レーザー　殺菌・消毒に","createdAt":"2024-11-25T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5659197022112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=0b4de1f29f9ae7474ac2c5440b14019b","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=f8169d79e3ce3132f8488b728d0a5e85","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=dbb247e850319af1e429b6333d6171c5","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=c194a2d430845fe016e7f6f184fdb536","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e32bdef24686c5035e5d28494a2d1d5c","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=523\u0026h=326\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e8a9e20aaa494c95b832e2e8ca53c021","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=523\u0026h=326\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e8a9e20aaa494c95b832e2e8ca53c021","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=523\u0026h=326\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e8a9e20aaa494c95b832e2e8ca53c021","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=523\u0026h=326\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e8a9e20aaa494c95b832e2e8ca53c021"},"images2x":{"use2x":false},"alt":null,"credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001006","label":"ハードウエア","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C200100C","label":"半導体","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"大阪大学大学院の研究グループは、青色波長帯において「世界で初めて」（研究グループ）小型で実用的な波長可変レーザーの開発に成功した。スロットと呼ばれる溝を周期的に形成した作製容易な新規構造を窒化物半導体レーザーに適用して実現した。新規構造第2高調波発生デバイスと組み合わせることで、殺菌・消毒が可能な遠紫外光源の実現が期待できる。\n本研究では、長さ約1mmの青色半導体レーザーの内部に単一波長発振のた","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC213670R21C24A1000000","title":"大同特殊鋼、モーター新材料　高出力で空飛ぶクルマに","createdAt":"2024-11-25T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5651292021112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5651292021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=48d9e9af536c4d19cf03b7895fbe0710","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5651292021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=1d0e794ae64a4d5676fc3c613413e779","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5651292021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccomp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Tech 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Tech ForesightとPatentfieldが共同開発したアルゴリズムに基づいて、重要性が高いと考えられる特許出願を紹介します。対象は日本の特許出願です。アルゴリズムでは「技術の革新性」「出願人にとっての緊急性」「国際出願」「他者の関心」などを重視しています。リーガルステータスは掲載時点のものです。\n〈概要〉半導体用フィルム状接着剤に関する発明。半導体チ","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC228TF0S4A121C2000000","title":"阪大、波長可変な青色半導体レーザー　殺菌・消毒に","createdAt":"2024-11-25T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5659197022112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=0b4de1f29f9ae7474ac2c5440b14019b","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=f8169d79e3ce3132f8488b728d0a5e85","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=dbb247e850319af1e429b6333d6171c5","400":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=400\u0026h=250\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=c194a2d430845fe016e7f6f184fdb536","500":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=500\u0026h=312\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e32bdef24686c5035e5d28494a2d1d5c","600":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=523\u0026h=326\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e8a9e20aaa494c95b832e2e8ca53c021","700":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=523\u0026h=326\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e8a9e20aaa494c95b832e2e8ca53c021","800":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=523\u0026h=326\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e8a9e20aaa494c95b832e2e8ca53c021","original":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5659197022112024000000-1.png?ixlib=js-2.3.2\u0026w=523\u0026h=326\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026q=75\u0026s=e8a9e20aaa494c95b832e2e8ca53c021"},"images2x":{"use2x":false},"alt":null,"credit":"","aspectRatio":1.6,"isSharable":true},"topics":[{"id":"C2001006","label":"ハードウエア","topicType":"prime-subsection","isHonseki":true,"type":"subsection"},{"id":"C200100C","label":"半導体","topicType":"prime-subsection","isHonseki":false,"type":"subsection"}],"snippet":"大阪大学大学院の研究グループは、青色波長帯において「世界で初めて」（研究グループ）小型で実用的な波長可変レーザーの開発に成功した。スロットと呼ばれる溝を周期的に形成した作製容易な新規構造を窒化物半導体レーザーに適用して実現した。新規構造第2高調波発生デバイスと組み合わせることで、殺菌・消毒が可能な遠紫外光源の実現が期待できる。\n本研究では、長さ約1mmの青色半導体レーザーの内部に単一波長発振のた","hasVideo":false,"shouldOpenExternalLink":{"externalLink":false},"origServiceCategory":null,"isFree":false,"operationTags":[]},{"id":"DGXZQOUC213670R21C24A1000000","title":"大同特殊鋼、モーター新材料　高出力で空飛ぶクルマに","createdAt":"2024-11-25T05:00:00+09:00","updatedAt":null,"featuredImage":{"id":"DSXZQO5651292021112024000000","images":{"100":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5651292021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=100\u0026h=62\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=48d9e9af536c4d19cf03b7895fbe0710","200":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5651292021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=200\u0026h=125\u0026auto=format%2Ccompress\u0026fit=crop\u0026bg=FFFFFF\u0026fp-x=0.5\u0026fp-y=0.5\u0026fp-z=1\u0026crop=focalpoint\u0026s=1d0e794ae64a4d5676fc3c613413e779","300":"https://article-image-ix.nikkei.com/https%3A%2F%2Fimgix-proxy.n8s.jp%2FDSXZQO5651292021112024000000-1.jpg?ixlib=js-2.3.2\u0026w=300\u0026h=187\u0026auto=format%2Ccomp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