JPWO2020206317A5

JPWO2020206317A5 -

Info

Publication number: JPWO2020206317A5
Application number: JP2021559260A
Authority: JP
Publication date: 2023-03-31
Anticipated expiration: 2040-04-03

Description

これまで、ＰＦＡＳ化合物を環境および飲料水から除去するためにいくつかの技術が採用されてきた。かかる技術には、顆粒状活性炭（ＧＡＣ）、イオン交換樹脂、および逆浸透が含まれる。ＧＡＣは主要な解決策として浮上してきたが、環境および飲料水からＰＦＡＳ化合物を除去する上で、ＧＡＣがさらに効果的であるように、性能の改善が継続的に必要とされている。
この出願の発明に関連する先行技術文献情報としては、以下のものがある（国際出願日以降国際段階で引用された文献及び他国に国内移行した際に引用された文献を含む）。
（先行技術文献）
（特許文献）
（特許文献１）米国特許出願公開第２０１３／０３１６４３３号明細書
（特許文献２）米国特許出願公開第２０１３／０１６８３２１号明細書
（特許文献３）国際公開第２０１７／１８０３４６号
（特許文献４）仏国特許出願公開第３０７７０６９号明細書
（特許文献５）米国特許第１０，７０２，８５３号明細書
（特許文献６）米国特許第２，０３８，０７１号明細書
（特許文献７）米国特許出願公開第２００２／０１７０４３６号明細書
（特許文献８）米国特許出願公開第２００３／０１８８６６３号明細書
（特許文献９）米国特許出願公開第２００４／０１１８２８７号明細書
（特許文献１０）米国特許出願公開第２００４／０１１８３８７号明細書
（特許文献１１）米国特許出願公開第２００５／００８１７１７号明細書
（特許文献１２）米国特許出願公開第２００５／０１５０８３５号明細書
（特許文献１３）米国特許出願公開第２００５／０１６７３６７号明細書
（特許文献１４）米国特許出願公開第２００６／００４２４６７号明細書
（特許文献１５）米国特許出願公開第２００６／００５４１４２号明細書
（特許文献１６）米国特許出願公開第２００７／０１６９７５８号明細書
（特許文献１７）米国特許出願公開第２００７／０２７２０８０号明細書
（特許文献１８）米国特許出願公開第２００８／００７３２９０号明細書
（特許文献１９）米国特許出願公開第２００８／０１２１１４２号明細書
（特許文献２０）米国特許出願公開第２００８／０２８３４４６号明細書
（特許文献２１）米国特許出願公開第２００８／０３０８０７５号明細書
（特許文献２２）米国特許出願公開第２００９／０１７２９９８号明細書
（特許文献２３）米国特許出願公開第２００９／０２２３３７０号明細書
（特許文献２４）米国特許出願公開第２０１０／０１７８６２４号明細書
（特許文献２５）米国特許出願公開第２０１１／００３０５９２号明細書
（特許文献２６）米国特許出願公開第２０１１／００７６２１０号明細書
（特許文献２７）米国特許出願公開第２０１２／００４８１１０号明細書
（特許文献２８）米国特許出願公開第２０１２／０１０００５４号明細書
（特許文献２９）米国特許出願公開第２０１２／０１７２２１６号明細書
（特許文献３０）米国特許出願公開第２０１２／０２２０４５１号明細書
（特許文献３１）米国特許出願公開第２０１３／００７８１６９号明細書
（特許文献３２）米国特許出願公開第２０１３／０１０９５６２号明細書
（特許文献３３）米国特許出願公開第２０１３／０１６８３２１号明細書
（特許文献３４）米国特許出願公開第２０１３／０２６９５３２号明細書
（特許文献３５）米国特許出願公開第２０１３／０３１６４３３号明細書
（特許文献３６）米国特許出願公開第２０１４／０１１７０５４号明細書
（特許文献３７）米国特許出願公開第２０１４／０１６５５４２号明細書
（特許文献３８）米国特許出願公開第２０１５／００５０２０２号明細書
（特許文献３９）米国特許出願公開第２０１６／００２３９２０号明細書
（特許文献４０）米国特許出願公開第２０１６／０１６６９７２号明細書
（特許文献４１）米国特許出願公開第２０１６／０２３６１６９号明細書
（特許文献４２）米国特許出願公開第２０１６／０２７１５５５号明細書
（特許文献４３）米国特許出願公開第２０１６／０３４６７２３号明細書
（特許文献４４）米国特許出願公開第２０１７／０２９７９２６号明細書
（特許文献４５）米国特許出願公開第２０１８／００３０８７１号明細書
（特許文献４６）米国特許出願公開第２０１８／０２１４８１６号明細書
（特許文献４７）米国特許出願公開第２０１９／０２０１８７０号明細書
（特許文献４８）米国特許出願公開第２０１９／０２４７８３１号明細書
（特許文献４９）米国特許出願公開第２０１９／０２７００８１号明細書
（特許文献５０）米国特許出願公開第２０２０／００３８７９８号明細書
（特許文献５１）米国特許出願公開第２０２０／００３９８０９号明細書
（特許文献５２）米国特許出願公開第２０２０／００４０８５１号明細書
（特許文献５３）米国特許出願公開第２０２０／０１７９９０２号明細書
（特許文献５４）米国特許第３，７１３，２８１号明細書
（特許文献５５）米国特許第３，７５７，４８８号明細書
（特許文献５６）米国特許第４，３３１，６３９号明細書
（特許文献５７）米国特許第４，６２４，９３７号明細書
（特許文献５８）米国特許第４，９２１，８２６号明細書
（特許文献５９）米国特許第５，０１６，６２８号明細書
（特許文献６０）米国特許第５，２４８，３９５号明細書
（特許文献６１）米国特許第５，３２２，７７８号明細書
（特許文献６２）米国特許第５，３３８，４５８号明細書
（特許文献６３）米国特許第５，３４８，７５５号明細書
（特許文献６４）米国特許第５，３５２，２７４号明細書
（特許文献６５）米国特許第５，３５６，８４９号明細書
（特許文献６６）米国特許第５，５００，０３８号明細書
（特許文献６７）米国特許第５，５０４，０５０号明細書
（特許文献６８）米国特許第５，５９８，７２１号明細書
（特許文献６９）米国特許第５，７５４，００２号明細書
（特許文献７０）米国特許第５，８２１，６８２号明細書
（特許文献７１）米国特許第５，８６１，０５０号明細書
（特許文献７２）米国特許第６，１７６，８９７号明細書
（特許文献７３）米国特許第６，１８６，９３９号明細書
（特許文献７４）米国特許第６，３４２，１２９号明細書
（特許文献７５）米国特許第６，４０６，５２３号明細書
（特許文献７６）米国特許第６，５９９，８５６号明細書
（特許文献７７）米国特許第６，６９９，３９３号明細書
（特許文献７８）米国特許第６，７０６，１９４号明細書
（特許文献７９）米国特許第６，８４８，３７４号明細書
（特許文献８０）米国特許第７，０７７，８９１号明細書
（特許文献８１）米国特許第７，２２２，６１２号明細書
（特許文献８２）米国特許第７，２７８，４０６号明細書
（特許文献８３）米国特許第７，３６１，２８０号明細書
（特許文献８４）米国特許第７，５４７，３５０号明細書
（特許文献８５）米国特許第７，６６６，５０７号明細書
（特許文献８６）米国特許第７，７０４，３０５号明細書
（特許文献８７）米国特許第７，７８０，７６５号明細書
（特許文献８８）米国特許第７，８５８，０６１号明細書
（特許文献８９）米国特許第７，８６２，７２５号明細書
（特許文献９０）米国特許第７，８７９，１３６号明細書
（特許文献９１）米国特許第７，９２３，４１０号明細書
（特許文献９２）米国特許第８，０３４，１６３号明細書
（特許文献９３）米国特許第８，０４２，５２４号明細書
（特許文献９４）米国特許第８，０５７，５７６号明細書
（特許文献９５）米国特許第８，０６９，７９７号明細書
（特許文献９６）米国特許第８，０８０，０８８号明細書
（特許文献９７）米国特許第８，１６８，１４７号明細書
（特許文献９８）米国特許第８，２６３，５２４号明細書
（特許文献９９）米国特許第８，８６４，８７７号明細書
（特許文献１００）米国特許第９，１２０，０７９号明細書
（特許文献１０１）米国特許第９，１２０，０７９号明細書
（特許文献１０２）米国特許第９，１７４，２０５号明細書
（特許文献１０３）米国特許第９，１９９，８６２号明細書
（特許文献１０４）米国特許第９，７３２，６４９号明細書
（特許文献１０５）米国再発行特許発明第３８，８４４号明細書
（特許文献１０６）カナダ国特許出願公開第２４８５１０３号明細書
（特許文献１０７）独国特許発明第３６２０４２５号明細書
（特許文献１０８）独国特許出願公開第０４３３６７７号明細書
（特許文献１０９）独国特許出願公開第１４１３３４８号明細書
（特許文献１１０）独国特許出願公開第１５２１７２３号明細書
（特許文献１１１）仏国特許出願公開第３０７７０６９号明細書
（特許文献１１２）英国特許出願公告第１３３６２４１号明細書
（特許文献１１３）韓国公開特許第２０１２－００７４０８０号公報
（特許文献１１４）特開平０１－０５８３３１号公報
（特許文献１１５）特開２００８－０２３３６５号公報
（特許文献１１６）国際公開第８１／００３９９号
（特許文献１１７）国際公開第２０１０／０４２３２１号
（特許文献１１８）国際公開第２０１１／０３８４１５号
（特許文献１１９）国際公開第２０１１／１２７３２３号
（特許文献１２０）国際公開第２０１３／０６３４９０号
（特許文献１２１）国際公開第２０１３／０９６２８１号
（特許文献１２２）国際公開第２０１３／１４９２４１号
（特許文献１２３）国際公開第２０１４／０８２０７６号
（特許文献１２４）国際公開第２０１４／０８８６３０号
（特許文献１２５）国際公開第２０１４／２０５２００号
（特許文献１２６）国際公開第２０１６／１８５０３３号
（特許文献１２７）国際公開第２０１７／１８０３４６号
（特許文献１２８）国際公開第２０１８／１４４５８８号
（特許文献１２９）国際公開第２０２０／０２８７０３号
（特許文献１３０）国際公開第２０２０／０２８８３９号
（特許文献１３１）国際公開第２０２０／０２８８４５号
（非特許文献）
（非特許文献１）ＪＯＨＮＳＯＮｅｔａｌ．，"ＡｄｖａｎｃｅｄＦｉｌｔｒａｔｉｏｎＭｅｍｂｒａｎｅｓｆｏｒｔｈｅＲｅｍｏｖａｌｏｆＰｅｒｆｌｕｏｒｏａｌｋｙｌＳｐｅｃｉｅｓｆｒｏｍＷａｔｅｒ"，ＡｍｅｒｉｃａｎＣｈｅｍｉｃａｌＳｏｃｉｅｔｙ，ＡＣＳＯｍｅｇａ，Ｍａｙ２，２０１９，Ｖｏｌ．４（５），ｐｐ．８００１－８００６
（非特許文献２）ＭＣＮＡＭＡＲＡｅｔａｌ．，"ＣｏｍｐａｒｉｓｏｎｏｆＡｃｔｉｖａｔｅｄＣａｒｂｏｎｓｆｏｒＲｅｍｏｖａｌｏｆＰｅｒｆｌｕｏｒｉｎａｔｅｄＣｏｍｐｏｕｎｄｓＦｒｏｍＤｒｉｎｋｉｎｇＷａｔｅｒ"，ＡｒｔｉｃｌｅｉｎＪｏｕｒｎａｌＡＷＷＡ，Ｊａｎｕａｒｙ２０１８；ＲｅｔｒｉｅｖｅｄｆｒｏｍＩｎｔｅｒｎｅｔｏｎＳｅｐｔｅｍｂｅｒ２２，２０２１．ｕｒｌ＜ｈｔｔｐｓ：／／ｃｓｗａｂ．ｏｒｇ／ｗｐ－ｃｏｎｔｅｎｔ／ｕｐｌｏａｄｓ／２０１８／１２／Ａｃｔｉｖａｔｅｄ－Ｃａｒｂｏｎｓ－Ｃｏｍｐａｒｉｓｏｎ－ｆｏｒ－Ｒｅｍｏｖａｌ－ｏｆ－ＰＦＡＳ－ｉｎ－Ｄｒｉｎｋｉｎｇ－Ｗａｔｅｒ－ＭｃＮａｍａｒａ－２０１８．ｐｄｆ＞
（非特許文献３）ＲＡＰＯＳＯｅｔａｌ．，ＭｅｒｃｕｒｙＳｐｅｃｉａｔｉｏｎｉｎＦｌｕｏｒｅｓｃｅｎｔＬａｍｐｓｂｙＴｈｅｒｍａｌＲｅｌｅａｓｅＡｎａｌｙｓｉｓ（２００３），ＷａｓｔｅＭａｎａｇｅｍｅｎｔ２３（１０）：８７９－８８６
（非特許文献４）Ｓｈａｒｉｆｉｅｔａｌ．，"ＦｏｒｍａｔｉｏｎｏｆＡｃｔｉｖｅＳｉｔｅｓｆｏｒＯｘｙｇｅｎＲｅｄｕｃｔｉｏｎＲｅａｃｔｉｏｎｓｂｙＴｒａｎｓｆｏｒｍａｔｉｏｎｏｆＮｉｔｒｏｇｅｎＦｕｎｃｔｉｏｎａｌｉｔｉｅｓｉｎＮｉｔｒｏｇｅｎ－ＤｏｐｅｄＣａｒｂｏｎＮａｎｏｔｕｂｅｓ．" ＡＣＳＮａｎｏ，ｖｏｌ．６，ｎｏ．１０，２０１２，ｐｐ．８９０４－８９１２，ｄｏｉ：１０．１０２１／ｎｎ３０２９０６ｒ
（非特許文献５）ＴｈｅＣｈｅｍｉｓｔｒｙｏｆＮｉｔｒｏｇｅｎａｎｄＰｈｏｓｐｈｏｒｏｕｓ．ＰｕｒｄｕｅＣｈｅｍｉｓｔｒｙ，ＰｕｒｄｕｅＵｎｉｖｅｒｓｉｔｙ，（２００６）ｃｈｅｍｅｄ．ｃｈｅｍ．ｐｕｒｄｕｅ．ｅｄｕ／ｇｅｎｃｈｅｍ／ｔｏｐｉｃｒｅｖｉｅｗ／ｂｐ／ｃｈ１０／ｇｒｏｕｐ５．ｐｈｐ＃ｎｅｇａｔｉｖｅ．
（非特許文献６）ＷＡＮＧｅｔａｌ．，"Ｉｎｆｌｕｅｎｃｅｏｆｃａｔｉｏｎｓｏｎｔｈｅｐａｒｔｉｔｉｏｎｂｅｈａｖｉｏｒｏｆｐｅｒｆｌｕｏｒｏｈｅｐｔａｎｏａｔｅ（ＰＦＨｐＡ）ａｎｄｐｅｒｆｌｕｏｒｏｈｅｘａｎｅｓｕｌｆｏｎａｔｅ（ＰＦＨｘＳ）ｏｎｗａｓｔｅｗａｔｅｒｓｌｕｄｇｅ"，Ｃｈｅｍｏｓｐｈｅｒｅ，Ｖｏｌ．１３１，Ｊｕｌｙ２０１５，ｐｐ．１７８－１８３
（非特許文献７）ＷＥＳＴＲＥＩＣＨｅｔａｌ．，"Ｔｈｅｒｅｍｏｖａｌｏｆｓｈｏｒｔ－ｃｈａｉｎａｎｄｌｏｎｇ－ｃｈａｉｎｐｅｒｆｌｕｏｒｏａｌｋｙｌａｃｉｄｓａｎｄｓｕｌｆｏｎａｔｅｓｖｉａｇｒａｎｕｌａｒａｃｔｉｖａｔｅｄｃａｒｂｏｎｓ：Ａｃｏｍｐａｒａｔｉｖｅｃｏｌｕｍｎｓｔｕｄｙ"，ＲｅｍｅｄｉａｔｉｏｎＪｏｕｒｎａｌ，Ｄｅｃｅｍｂｅｒ４，２０１８；Ｖｏｌ．２９（１）ｐｐ．１９－２６ Several techniques have been employed to date to remove PFAS compounds from the environment and drinking water. Such techniques include granular activated carbon (GAC), ion exchange resins, and reverse osmosis. Although GAC has emerged as the primary solution, there is a continuing need for improved performance so that GAC is more effective in removing PFAS compounds from the environment and drinking water.
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