Faculty Profiles - SAITO, Susumu

Media Coverage - SAITO, Susumu

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太陽光や水から薬の原料開発へ　人工光合成で、名古屋大 Newspaper, magazine

日本経済新聞電子版日本経済新聞電子版 https://www.nikkei.com/article/DGXZQOSG035S90T00C25A3000000/ 2025.3

経営ひと言／名古屋大学・斎藤進教授「有機合成けん引」 Newspaper, magazine

日刊工業新聞電子版日刊工業新聞 https://www.nikkan.co.jp/articles/view/00742084 2025.3

太陽光を利用し医薬品原料と水素生成　名古屋大学など研究チーム「人工光合成」の原理で Newspaper, magazine

中日新聞Web 中日新聞Web https://www.chunichi.co.jp/article/1031192 2025.2

名大、人工光合成で医薬原料　産業用実用化に道 Newspaper, magazine

日刊工業新聞電子版日刊工業新聞電子版 https://www.nikkan.co.jp/articles/view/00741438 2025.2

Turning waste organic compound into useful pharmaceuticals and energy using a technique inspired by photosynthesis Internet

Nagoya University https://www.eurekalert.org/news-releases/1074801 2025.2

Turning waste organic compound into useful pharmaceuticals and energy using a technique inspired by photosynthesis Promotional material

EurekAkert! EurekAkert! https://www.eurekalert.org/news-releases/1074801 2025.2

太陽光と水で医薬品材料とグリーン水素を生成〜「人工光合成」による新たな有機物生産法の幕開け〜

名古屋大学名古屋大学　プレスリリース https://www.nagoya-u.ac.jp/researchinfo/result/upload_images/20250228_irccs.pdf 2025.2

Exploring and Leveraging the basic principle for molecular reduction catalysis of biorenewables, CO2, and plastics using light, electric and heat energy Internet

Science Impact Ltd. Ingenta CONNECT https://doi.org/10.21820/23987073.2024.1.19 2024.1

Can a machine do better than human for photocatalysis for organic synthesis? Internet

Advances in Engineering Advances in Engineering https://advanceseng.com/machine-better-human-photocatalysis-organic-synthesis/ 2023.10

アルコール取り出す効率良い触媒を開発名大チームバイオマス資源で成果

中日新聞社中日（朝刊）+online https://www.chunichi.co.jp/article/142505 2020.10

An Effective Method of Decomposing Plastic Waste

Spinoff.com https://app.box.com/shared/static/ceeto8oyyxhc2oj3e7w9yyfglfw4rzb1.pdf 2018.7

An Effective Method of Decomposing Plastic Waste

Spinoff.com https://app.box.com/shared/static/ceeto8oyyxhc2oj3e7w9yyfglfw4rzb1.pdf 2018.7

CO2を資源として活用できる道を切り開く

ハリマ化成グループ Harima Quarterly「最前線の分子科学」One hour interview https://www.harima.co.jp/hq/one_hour_interview/136/index.html 2018.7

安定アミドを効率よくアミンに変換する触媒　名大グループが開発

科学新聞社科学新聞 2017.6

アミド向け触媒開発アミンやアルコールに効率変換名大

日刊工業新聞社日刊工業新聞 https://www.nikkan.co.jp/articles/view/00430036 2017.5

Conversations with Saito Susumu: Saving the world from plastics

Scientific Inquirer https://scientificinquirer.com/2017/07/26/conversations-with-saito-susumu-saving-the-world-from-plastics/ 2017.5

名古屋大学など，安定アミドを効率よくアミンやアルコールに変換する触媒を開発

日本経済新聞社日本経済新聞（online） http://www.nikkei.com/article/DGXLRSP445188_X10C17A5000000/ 2017.5

環境と資源の危機を「触媒」で乗り超える

日本科学技術振興機構　 JST News 2016 https://www.jst.go.jp/pr/jst-news/pdf/2015/2016_01_p10.pdf#search=%27カルボン酸+斎藤進+JST+News+2016%27 2016.1

カルボン酸を触媒のみでアルコールに変換

Chem Station スポットライトリサーチ https://www.chem-station.com/blog/2015/10/ruthenium.html 2015.10

カルボン酸を効率よくアルコールに変換　名大　複製物少ない触媒開発　炭素循環型社会の実現に貢献期待

科学新聞社科学新聞 2015.9

カルボン酸からアルコールへ変換　名大が高性能触媒開発

日刊工業新聞社日刊工業新聞 2015.9

CO2からアルコールへ　名大が新触媒　資源化期待

中日新聞社中日（朝刊） 2015.8

名大・信州大の研究G、太陽光と水を使い医薬品材料とグリーン水素生成に成功。人工光合成で新たな有機物生産法開発 Internet

グリーンプロダクショングリーンプロダクション https://greenproduction.co.jp/archives/28792 2025.3

光で薬をつくる？名大が開発した驚きの人工光合成技術 Internet

Note Note https://note.com/some_good_info/n/n8b6fb66119fe 2025.3

人工光合成、産業用実用化に道…名大が成功したこと Internet

Yahoo!Japan Yahoo! https://news.yahoo.co.jp/articles/fa5f5bb771db7c8b55aeb700f86fc69c6ab5353a 2025.3

人工光合成、産業用実用化に道…名大が成功したこと Internet

ニュースイッチニュースイッチ https://newswitch.jp/p/44852 2025.3

人工光合成、産業用実用化に道…名大が成功したこと Internet

dmenuニュース docomo https://topics.smt.docomo.ne.jp/article/newswitch/business/newswitch-44852 2025.3

Artificial photosynthesis converts organic waste into useful pharmaceuticals and energy Internet

Phys.Org Phys.Org https://phys.org/news/2025-02-artificial-photosynthesis-pharmaceuticals-energy.html#google_vignette 2025.2

Artificial Photosynthesis Breakthrough Transforms Trash Into Fuel and Pharmaceuticals Internet

SciTechDaily SciTechDaily https://scitechdaily.com/artificial-photosynthesis-breakthrough-transforms-trash-into-fuel-and-pharmaceuticals/ 2025.2

Breakthrough in Artificial Photosynthesis for Sustainable Energy Internet

Life Technology Life Technology https://www.lifetechnology.com/blogs/life-technology-science-news/breakthrough-in-artificial-photosynthesis-for-sustainable-energy?srsltid=AfmBOoqs26xHA4adj2hJou7vPcHb6zYP2NUqbm3hfeY_NpYIoCTEuoKY 2025.2

Artificial Photosynthesis Breakthrough Transforms Trash Into Fuel and Pharmaceuticals Internet

SciTechDaily SciTechDaily https://scitechdaily.com/artificial-photosynthesis-breakthrough-transforms-trash-into-fuel-and-pharmaceuticals/ 2025.2

Breakthrough in Artificial Photosynthesis for Sustainable Energy Internet

Artificial photosynthesis converts organic waste into useful pharmaceuticals and energy Internet

Phys.Org Phys.Org https://phys.org/news/2025-02-artificial-photosynthesis-pharmaceuticals-energy.html#google_vignette 2025.2

ChemComm’s 60th Anniversary – Susumu Saito Newspaper, magazine

Chemical Communications, RSC Chemical Communications, RSC 2024.12

Can a machine do better than human for photocatalysis for organic synthesis? Internet

Advances in Engineering Advances in Engineering 2023.10

Krebs cycle metabolites fall into Carbon Feedstock Internet

Chem-Station https://www.chem-station.com/blog/2020/12/mmc.html 2020.12

Catalyzing a zero-carbon world by harvesting energy from living cells

Bioengineer.org https://bioengineer.org/catalyzing-a-zero-carbon-world-by-harvesting-energy-from-living-cells/ 2020.11

Scientists identify new way to turn energy-poor pathway products into biorenewable ones

AZO life Science https://www.azolifesciences.com/news/20201116/Scientists-identify-new-way-to-turn-energy-poor-pathway-products-into-biorenewable-ones.aspx 2020.11

Catalyzing a zero-carbon world by harvesting energy from living cells

ChemEurope.com ChemEurope.com, News https://www.chemeurope.com/en/news/1168679/catalyzing-a-zero-carbon-world-by-harvesting-energy-from-living-cells.html?WT.mc_id=ca0066 2020.11

Catalyzing a zero-carbon world by harvesting energy from living cells

Bionity.com https://www.bionity.com/en/news/1168679/catalyzing-a-zero-carbon-world-by-harvesting-energy-from-living-cells.html?WT.mc_id=ca0068 2020.11

Breakthrough: Catalyzing a Zero-Carbon World by Harvesting Energy From Living Cells

SciTechDaily https://scitechdaily.com/breakthrough-catalyzing-a-zero-carbon-world-by-harvesting-energy-from-living-cells/ 2020.11

Breakthrough: Catalyzing a Zero-Carbon World by Harvesting Energy From Living Cells Internet

SciTechDaily SciTechDaily, Chemistry https://scitechdaily.com/breakthrough-catalyzing-a-zero-carbon-world-by-harvesting-energy-from-living-cells/ 2020.11

Catalyzing a zero-carbon world by harvesting energy from living cells

Phys.org Phys.org, Chemistry, Materials https://phys.org/news/2020-11-catalyzing-zero-carbon-world-harvesting-energy.html 2020.11

Harvesting Energy From Living Cells To Beat Climate Change

ScienceBlog https://scienceblog.com/519545/harvesting-energy-from-living-cells-to-beat-climate-change/ 2020.11

Catalyzing a zero-carbon world by harvesting energy from living cells

AAAS, USA EurekAlert! https://www.eurekalert.org/pub_releases/2020-11/nu-caz111120.php 2020.11

Catalyzing A Zero-Carbon World By Harvesting Energy From Living Cells

Science Magazine ScienMag https://scienmag.com/catalyzing-a-zero-carbon-world-by-harvesting-energy-from-living-cells/ 2020.11

Catalyzing a zero-carbon world by harvesting energy from living cells

ScienceDaily https://www.sciencedaily.com/releases/2020/11/201112093110.htm 2020.11

Self-Condensation of Primary Amines at Ambient Temperature Internet

Wiley-VCH ChemistryViews 2018.11

Nagoya University researchers break down plastic waste

Bio Fuel Daily http://www.biofueldaily.com/reports/Nagoya_University_researchers_break_down_plastic_waste_999.html 2017.7

Turning metal catalysis on its head for a sustainable future

ChemEurope.com http://www.chemeurope.com/en/news/163908/turning-metal-catalysis-on-its-head-for-a-sustainable-future.html?WT.mc_id=ca0066 2017.6

Nagoya University chemists turn metal catalysis on its head for a sustainable future

RevoScience http://revoscience.com/en/nagoya-university-chemists-turn-metal-catalysis-head-sustainable-future/ 2017.6

New approach to metal catalysis could maximise the value of biomass

Bioenergy Insight http://www.bioenergy-news.com/display_news/12527/new_approach_to_metal_catalysis_could_maximise_the_value_of_biomass/ 2017.6

Nagoya University Researchers Transform Metal Catalysis for Sustainable Future

AZO CLEANTECH http://www.azocleantech.com/news.aspx?newsID=24155 2017.6

Nagoya University chemists turn metal catalysis on its head for a sustainable future

SpaceDaily http://www.spacedaily.com/reports/Nagoya_University_chemists_turn_metal_catalysis_on_its_head_for_a_sustainable_future_999.html 2017.6

Nagoya University chemists turn metal catalysis on its head for a sustainable future _ Nagoya University team used high-valent transition metal catalysts for an unconventional hydrogenation of carboxylic acid groups, common to biomass feedstocks. The high-valent catalysts showed good selectivity under mild conditions.

Asia Research News 2017.6

Nagoya University chemists turn metal catalysis on its head for a sustainable future

Nagoya University NU Research http://en.nagoya-u.ac.jp/research/activities/news/2017/06/nagoya-university-chemists-turn-metal-catalysis-on-its-head-for-a-sustainable-future.html 2017.6

Chemists turn metal catalysis on its head for a sustainable future Researchers take a nonintuitive approach to metal catalysis for selective conversion of biomass into high-value chemical products under mild conditions

ScienceDaily http://www.sciencedaily.com/releases/2017/06/170627134340.htm 2017.6

Chemists turn metal catalysis on its head for a sustainable future

Phys.org http://phys.org/news/2017-06-chemists-metal-catalysis-sustainable-future.html 2017.6

Nagoya University chemists turn metal catalysis on its head for a sustainable future

AlphaGalileo http://www.alphagalileo.org/ViewItem.aspx?ItemId=176781&CultureCode=en 2017.6

Chemists turn metal catalysis on its head for a sustainable future

Nanowerk http://www.nanowerk.com/news2/green/newsid=47208.php 2017.6

Nagoya University chemists turn metal catalysis on its head for a sustainable future Nagoya University researchers take a nonintuitive approach to metal catalysis for selective conversion of biomass into high-value chemical products under mild conditions

AAAS、USA EurekAlert! | AAAS http://www.eurekalert.org/pub_releases/2017-06/nu-nuc062717.php 2017.6

Chemists spin steel catalysis on the conduct for a tolerable future

rsoftsolution http://rsoftsolution.com/blog/chemists-turn-metal-catalysis-on-its-head-for-a-sustainable-future.html 2017.6

CHEMISTS TURN METAL CATALYSIS ON ITS HEAD FOR A SUSTAINABLE FUTURE

Marketscale Sciences http://www.marketscale.com/industries/sciences/chemists-turn-metal-catalysis-on-its-head-for-a-sustainable-future/ 2017.6

バイオマス資源から効率的にアルコール合成する新触媒　名古屋大学

大学ジャーナルonline http://univ-journal.jp/14433/ 2017.6

名大、カルホ_ン酸を高選択的にアルコールへ水素化するRe触媒を開発

Academication https://academication.ations.jp/articles/1092 2017.6

名大、カルホ_ン酸を高選択的にアルコールへ水素化するRe触媒を開発

exciteニュース http://www.excite.co.jp/News/it_biz/20170616/Cobs_1640193.html 2017.6

カルボン酸をアルコールに変換する革新的な水素化触媒を開発〜レニウムを用いる計画的なアルコールの合成がもたらす炭素循環型社会に期待〜

日本の研究.com http://research-er.jp/articles/view/59420 2017.6

名大、カルホ_ン酸を高選択的にアルコールへ水素化するRe触媒を開発

グノシーマイナビニュース http://gunosy.com/articles/a7zna 2017.6

名大、カルホ_ン酸を高選択的にアルコールへ水素化するRe触媒を開発

エネ速 http://energy.1of.biz/hydrogen-energy/56226/ 2017.6

名大、カルボン酸を高選択的にアルコールへ水素化するRe触媒を開発

Livedoorニュース https://news.livedoor.com/名大、カルボン酸を高選択的にアルコールへ水素化するRe触媒を開発/article/detail/13211530/ 2017.6

名大、カルホ_ン酸を高選択的にアルコールへ水素化するRe触媒を開発

Mapionニュース http://www.mapion.co.jp/news/column/cobs1640193-1-all/ 2017.6

カルボン酸をアルコール変換する革新的な水素化触媒を開発〜レニウムを用いる計画的なアルコールの合成がもたらす炭素循環社会に期待〜

名古屋大学名古屋大学プレスリリース http://www.nagoya-u.ac.jp/about-nu/public-relations/researchinfo/upload_images/20170614_sci_1.pdf 2017.6

カルボン酸をアルコール変換する革新的な水素化触媒を開発〜レニウムを用いる計画的なアルコールの合成がもたらす炭素循環社会に期待〜

日本科学技術振興機構 JST プレスリリース http://www.nagoya-u.ac.jp/about-nu/public-relations/researchinfo/upload_images/20170614_sci_1.pdf 2017.6

Nagoya University Chemists Turn Metal Catalysis On Its Head For A Sustainable Future

Scienmag http://scienmag.com/nagoya-university-chemists-turn-metal-catalysis-on-its-head-for-a-sustainable-future/ 2017.6

New compound that can break down plastic waste developed

Daily Excelsior.com http://www.dailyexcelsior.com/new-compound-that-can-break-down-plastic-waste-developed/ 2017.5

Researchers break down plastic waste under mild conditions

TheeWeek http://www.theweek.in/content/archival/news/sci-tech/researchers-break-down-plastic-waste-under-mild-conditions.html 2017.5

New compound that can break down plastic waste developed

India.com http://www.india.com/news/agencies/new-compound-that-can-break-down-plastic-waste-developed-2180589/ 2017.5

New compound that can break down plastic waste developed

Business Standard, Tokyo http://www.business-standard.com/article/pti-stories/new-compound-that-can-break-down-plastic-waste-developed-117052900832_1.html 2017.5

Nagoya University researchers break down plastic waste

Health Medicine Network http://healthmedicinet.com/i/nagoya-university-researchers-break-down-plastic-waste/ 2017.5

Researchers Break down Plastic Waste _ Nagoya University-based research team develops new highly efficient catalyst for breaking resistant chemical bonds, paving the way for easier recycling of plastic waste

Lab Manager http://www.labmanager.com/news/2017/05/researchers-break-down-plastic-waste#.WSlTFoQRiSw 2017.5

Nagoya University Researchers Break Down Plastic Waste _ Nagoya University-based research team develops new highly efficient catalyst for breaking resistant chemical bonds, paving the way for easier recycling of plastic waste.

Asia Research News http://www.researchsea.com/html/article.php/aid/10754/cid/1/research/science/nagoya_university/nagoya_university_researchers_break_down_plastic_waste.html 2017.5

Nagoya University researchers succeed in breaking down plastic waste in an easier way

Crazy Engineers http://www.crazyengineers.com/news/nagoya-university-researchers-succeed-in-breaking-down-plastic-waste-in-an-easier-way.96039/ 2017.5

According to the study, organometallic ruthenium catalysts may break down even the toughest amide bonds effectively under mild conditions.

DNA daily news and analysis (ANI) http://www.dnaindia.com/technology/report-according-to-the-study-organometallic-ruthenium-catalysts-may-break-down-even-the-toughest-amide-bonds-effectively-under-mild-conditions-2454146 2017.5

Researchers break down under mild conditions

Financial Express http://www.financialexpress.com/lifestyle/science/researchers-break-down-under-mild-conditions/690484/ 2017.5

Researchers break down plastic waste under mild conditions

Business Standard, Washington http://www.business-standard.com/article/news-ani/researchers-break-down-plastic-waste-under-mild-conditions-117052900154_1.html 2017.5

Researchers break down plastic waste under mild conditions

newkeraka.com http://www.newkerala.com/news/fullnews-246218.html 2017.5

Researchers break down plastic waste under mild conditions

Siasat Daily http://www.siasat.com/news/researchers-break-plastic-waste-mild-conditions-1191044/ 2017.5

Japanse onderzoekers hebben organorutheniumkatalysatoren ontwikkeld die amides kunnen afbreken, dus misschien ook nylon. Dat melden ze in Nature.

C2W http://www.c2w.nl/nieuws/ruthenium-in-strijd-tegen-de-nylonsoep/item19110 2017.5

Breaking down plastic waste Organoruthenium mediated hydrogenation under mild conditions

ChemEurope.com http://www.chemeurope.com/en/news/163424/breaking-down-plastic-waste.html?WT.mc_id=ca0066 2017.5

Newly-developed compound will be able to break down plastic waste! _ Although amide bonds can give great strength to plastics, when it comes to their recycling at a later point, the difficultly of breaking these bonds usually prevents recovery of useful products.

Zeenews http://zeenews.india.com/environment/newly-developed-compound-will-be-able-to-break-down-plastic-waste-2010174.html 2017.5

New Highly Efficient Catalyst for Breaking Resistant Chemical Bonds Simplifies Recycling of Plastic Waste

AzocleanTech http://www.azocleantech.com/news.aspx?newsID=24089 2017.5

A Mild Way To Break Down Plastic Waste

AsianScientists http://www.asianscientist.com/2017/05/in-the-lab/catalyst-plastic-waste-recycling/ 2017.5

Hacia un proceso pr_ctico para descomponer pl_stico

NCYT Noticias de la Clencai y la Technologia http://noticiasdelaciencia.com/not/24599/hacia-un-proceso-practico-para-descomponer-plastico/ 2017.5

安定アミドを効率よくアミンやアルコールに変換する触媒を開発〜再生可能な資源として炭素循環社会の実現に貢献〜

日本の研究.com http://research-er.jp/articles/view/58397 2017.5

安定アミドを効率よくアミンやアルコールに変換する触媒を開発

J-Net21 中小企業ビジネス支援サイト http://j-net21.smrj.go.jp/snavi/Contents/0000095783 2017.5

名古屋大学など、低温／低水素圧で安定アミドを効率よくアミンやアルコールに変換する触媒を開発

fabcross for エンジニア http://engineer.fabcross.jp/archeive/170518_nagoya-u.html 2017.5

名古屋大学、炭素循環社会を実現する安定アミドを効率よくアミンやアルコールに変換する触媒を開発

炭素ニュース http://blog.goo.ne.jp/kagaku2012/e/cbeb1f2ef7a47bc1f056763e7bcfb747 2017.5

Researchers break down plastic waste

Phys.Org http://phys.org/news/2017-05-plastic.html 2017.5

安定アミドを効率よくアミンやアルコールにい変換する触媒を開発　〜再生可能な資源として炭素循環社会の実現に貢献〜

日本科学技術振興機構 JST プレスリリース http://www.jst.go.jp/pr/announce/20170516/index.html 2017.5

安定アミドを効率よくアミンやアルコールにい変換する触媒を開発　〜再生可能な資源として炭素循環社会の実現に貢献〜

名古屋大学　名古屋大学　プレスリリース http://www.nagoya-u.ac.jp/about-nu/public-relations/researchinfo/upload_images/20170516_sci_1.pdf 2017.5

Nagoya University Researchers Break Down Plastic Waste

AlphaGalileo http://www.alphagalileo.org/ViewItem.aspx?ItemId=175757&CultureCode=en 2017.5

Nagoya University Researchers Break Down Plastic Waste

Nagoya University NU Research http://en.nagoya-u.ac.jp/research/activities/news/2017/05/nagoya-university-researchers-break-down-plastic-waste.html 2017.5

Nagoya University Researchers Break Down Plastic Waste

Science News Line _ Physics & Chemistry http://www.sciencenewsline.com/news/2017052616460030.html 2017.5

Nagoya University researchers break down plastic waste Nagoya University-based research team develops new highly efficient catalyst for breaking resistant chemical bonds, paving the way for easier recycling of plastic waste

EurekAlert! |AAAS The Global Source for Science News http://www.eurekalert.org/pub_releases/2017-05/nu-nur052617.php 2017.5

New catalyst paving the way for easier recycling of plastic waste

Nanowerk http://www.nanowerk.com/news2/green/newsid=46841.php 2017.5

A Mild Way To Break Down Plastic Waste

AsianScientists http://www.asianscientist.com/2017/05/in-the-lab/catalyst-plastic-waste-recycling/ 2017.5

According to the study, organometallic ruthenium catalysts may break down even the toughest amide bonds effectively under mild conditions.

Breaking down plastic waste Organoruthenium mediated hydrogenation under mild conditions

ChemEurope.com http://www.chemeurope.com/en/news/163424/breaking-down-plastic-waste.html?WT.mc_id=ca0066 2017.5

カルボン酸を触媒のみでアルコールに還元 Internet

Chem-Station スポットライトリサーチ https://www.chem-station.com/blog/2015/10/ruthenium.html 2015.10

天然に豊富なカルボン酸を効率よくアルコールに変換する触媒を開発　〜再生可能な資源として炭素循環社会の実現に貢献〜

名古屋大学名古屋大学　プレスリリース http://www.nagoya-u.ac.jp/about-nu/public-relations/researchinfo/upload_images/20150828_sci.pdf#search='斎藤進+カルボン酸+名古屋大学' 2015.8

天然に豊富なカルボン酸を効率よくアルコールに変換する触媒を開発　〜再生可能な資源として炭素循環社会の実現に貢献〜

日本科学技術振興機構 JST プレスリリース http://www.jst.go.jp/pr/announce/20150828-2/ 2015.8

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Media Coverage - SAITO, Susumu