Patents                                                            

 

International (Registration_등록)

 

[2] Lee, W.; Jung, S.; Bae, S., Bimetallic catalyst for high nitrate nitrogen reduction and selectivity and manufacturing methods threof. US 9,764,969 B2, 2017.09.19  

 [1] Lee, W.; Jung, S.; Bae, S., Synthesis method for bimetallic catalyst for effective nitrate removal and high nitrogen gas selectivity. PCT/KR2014/003081, 2014. 04. 09

 

Domestic (Registration_등록)

 

[17] 배성준; 윤선호; 최민희; 정주은; 정원철; 김세령, 천연광물을 이용한 펜톤 반응 아조염료 분해방법. 등록번호 제 10-2446286호, 2022. 09. 19.

[16] 배성준;윤선호; 최민희; 정원철; 김세령, 전처리된 천연제올라이트를 이용한 오염물질 정화소재 및 그 제조방법. 출원번호 제 10-2021-0109545호, 2021. 08. 19.

[15] 배성준; 폴리스 애닐 쿠마르 레디; 윤선호; 최민희; 정원철; 김세령, 이중금속촉매와 천연제올라이트를 이용한 오염물질 정화소재 및 그 제조방법. 출원번호 제 10-2021-0109546호, 2021. 08. 19.

[14] 배성준; 박재형, 물로 세척된 석탄재를 이용한 촉매 및 이의 제조방법 (Catalyst using water-washed coal fly ash and preparing method of the same). 등록번호 제 10-2307169호, 2021. 09. 24.

[13] 배성준; 박재형, 석탄비산재를 이용한 실리콘 및 제올라이트의 순차적 제조방법 (Sequential preparation method of silicon and zeolite by using coal fly ash). 등록번호 제 10-2262990호, 2021. 06. 09.

[12] 배성준; 박재형, 자성을 띠는 석탄재를 이용한 금속 나노입자가 도핑된 IRFA@SiO2 촉매 및 이의 제조방법 (Metallic nanoparticle-doped IRFA@SiO2 catalyst using iron-rich fly ash and preparing method of the same). 등록번호 제 10-2215961호, 2021. 02. 08.

[11] 배성준; 윤선호, 석탄 비산재에 포함된 철 성분의 선택적 추출 및 추출된 철을 이용한 나노영가철 제조방법 (Method for selectively extracting iron component included in coal fly ash and producing nanoscale zerovalent iron suing the extracted iron). 등록번호 제 10-2126567호, 2020. 06. 18.

[10] 배성준; 김민선, 알칼리로 표면 개질된 선탄 연소 부산물을 지지체로 이용한 영가철 촉매 및 이의 제조방법 (Zerovalent iron catalyst supported on surface of coal combustion by-product modified by alkaline treatment and manufacturing method thereof). 등록번호 제 10-2126227호, 2020. 06. 18.

[9] 민경진; 박기영; 박계성; 배성준, 류준희, 폐수 내 중금속을 제거하기 위한 선택적 이온분리시스템, 이의 제어방법, 및 생산관리 시스템 . 등록번호 제 10-2021719 호, 2019. 09. 06.

[8] 이우진; 경대승; 신영호; 배성준, 시멘트 슬러리 조성물 및 이를 이용한 배리어 시멘트 구조물 (Contents of cement slurry and its application to structural barrier cement). 등록번호 제 10-1813130 호, 2017. 12. 21.

[7] 이우진; 정성윤; 배성준, 질산성 질소의 제거효율과 질소 선택도가 높은 이중금속 촉매의 제조방법 및 그 촉매 (Synthesis method for bimetallic catalyst for effective nitrate removal and high nitrogen gas selectivity). 등록번호 제 10-1547100호, 2014. 02. 12.

[6] 이종열; 배범한; 이우진; 조창현; 배성준, 화약물질 분해용 촉매 및 이를 이용한 화약물질 분해방법 (Method for synthesis of biogenic catalyst and its use for degradation of explosives). 등록번호 제 10-2013-0032015호, 2013. 03. 26.

[5] 이우진; 정준영; 배성준, 질산성 질소의 환원 분해를 위한 마그헤마이트 담체의 구리-팔라듐 이중금속 촉매 (Method for catalytic nitrate reduction by maghemite supported Cu-Pd bimetallic catalyst). 등록번호 제 10-1404579호, 2014. 05. 30.

[4] 이우진; 배성준, 철환원 박테리아와 전자전달체를 이용한 레피도크로사이트로부터 생물 유래철함유 토양 광물의 제조방법 (Method for synthesis of biogenic soil minerals by interaction of iron-reducing bacteria and lepidocrocite in the presence of different electron transfer mediators). 등록번호 제 10-1358670호, 2012. 07. 11.

[3] 이우진; 배성준, 철함유 토양 광물과 철환원 박테리아를 이용한 염소계 유기화합물의 분해방법 (Method for degradation of chlorinated organics by iron-bearing soil minerals and iron-reducing bacteria). 등록번호 제 10-1197131호, 2012. 10. 29.

[2] 이우진; 정준영; 배성준, 구리-프로모터 및 팔라듐-노블 메탈 도핑 나노영가철 이중금속 촉매 및 그 제조방법 (Method for synthesis of NZVI support with bimetallic catalyst (Pd/Cu)), 등록번호 제 10-1190283호, 2012. 10. 05.

[1] 이우진; 이영민; 배성준,변형된 펜톤 반응에 의한 염소계 지방족 화합물의 분해 방법 (Method for degradation of chlorinated organics by modified Fenton reaction). 등록번호 제 10-1150789호, 2012. 05. 22. 

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Domestic (Application_출원)

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[03] 배성준;  폴리스아닐쿠마레디, 코발트와 니켈 산화/환원 이중 조촉매를 이용한 향상된 CdS/SnS2 광촉매 기반 수소생산 및 그 제조방법 . 출원번호 제 10-2023-0139146호, 2023. 10. 18.

[02] 배성준;  윤선호; 사친드라쿠마르레이, 천니켈몰리브덴-아연철 이형접합 구조체/바이오차 복합체, 이의 제조방법 및 이를 포함하는 유기 오염물질 제거용 광촉매 . 출원번호 제 10-2022-0095817호, 2022. 08. 02.

[01] 배성준; 박기영; 김주현, 전해전지용 전극 및 이의 제조방법 (Electrode for electrolytic cell and preparing method thereof). 출원번호 제 10-2018-0141815호, 2018. 11. 16.

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Technical Reports

                                                         

[13] Sihn, Y.; Lee, N.; Bae, S.; Lee, W. Development of integrated SMART groundwater management system using spectroscopy and molecular dynamics, 2nd year Annual Report (2014), Supported by National Research Foundation (NRF), April, 2014.

[12] Kim, S.; Jung, S.; Choi, K.; Bae, S.; Lee, W., Development of selective/smart catalysis technology to completely transform nitrate/chlorinated compounds in groundwater, 2nd year Annual Report (2013), for the GAIA project, Supported by Korean Ministry of Environment(KMOE), January, 2014.

[11] Bae, S.; Hamid, S.; Lee, W., Development of advanced reductive treatment system for nitrate removal, Final Report (2013), for the GAIA project, Supported by Korean Ministry of Environment(KMOE), January, 2014.

[10] Lee, Y.; Bae, S.; Lee. W., In-situ sustainable green technology development for the remediation of mixed contaminants in military shooting ranges, 3rd year Annual Report(2013), for the GAIA project, Supported by Korean Ministry of Environment(KMOE), January, 2014.

[09] Sihn, Y.; Lee, N.; Bae, S.; Lee, W. Development of integrated SMART groundwater management system using spectroscopy and molecular dynamics, 1st year Annual Report (2013), Supported by National Research Foundation (NRF), April, 2013.

[08] Bae, S.; Jung, J.; Lee, W., Development of advanced reductive treatment system for nitrate removal, 2nd year Annual Report(2012), for the GAIA project, Supported by Korean Ministry of Environment(KMOE), January, 2013.

[07] Jung, S.; Bae, S.; Lee, W., Development of selective/smart catalysis technology to completely transform nitrate/chlorinated compounds in groundwater, 1st year Annual Report (2012), for the GAIA project, Supported by Korean Ministry of Environment(KMOE), January, 2013.

[06] Cho, C.; Bae, S.; Lee. W., In-situ sustainable green technology development for the remediation of mixed contaminants in military shooting ranges, 2nd year Annual Report (2012), for the GAIA project, Supported by Korean Ministry of Environment(KMOE), January, 2013.

[05] Jung, J.; Bae, S.; Lee. W., Development of advanced reductive treatment system for nitrate removal, 1st year Annual Report (2011), for the GAIA project, Supported by Korean Ministry of Environment(KMOE), January, 2012.

[04] Cho, C.; Bae, S.; Lee. W. In-situ sustainable green technology development for the remediation of mixed contaminants in military shooting ranges, 1st year Annual Report (2011), for the GAIA project, Supported by Korean Ministry of Environment(KMOE), January, 2012.

[03] Bae, S.; Lee, W. Interactions between Biotic and Abiotic Processes to Degrade the Chlorinated Organic Contaminants in Subsurface Environments, Final Report (2011), Supported by Korea Research Foundation (KRF), May, 2011.

[02] Bae, S.; Lee, W. Interactions between Biotic and Abiotic Processes to Degrade the Chlorinated Organic Contaminants in Subsurface Environments, 2nd Year Annual Report (2009), Supported by Korea Research Foundation (KRF), September, 2009.

[01] Bae, S.; Lee, W. Interactions between Biotic and Abiotic Processes to Degrade the Chlorinated Organic Contaminants in Subsurface Environments, 1st year Annual Report (2008), Supported by Korea Research Foundation (KRF), September, 2008.

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