Publications/Patents
Publications
2021
1. Liang Zhou, Juying Lei, Fuchen Wang, Lingzhi Wang, Michael R. Hoffmann, yongdi Liu*, Su-il In* and Jinlong Zhang*, "Carbon Nitride Nanotubes with in situ Grafted Hydroxyl Groups for Highly Efficient Spontaneous H2O2 Production", Applied Catalysis B: Environmental, 288 (2021) 119993
2020
1. Chaitanya B. Hiragond, Hwapyong Kim, Junho Lee, Saurav Sorcar, Can Erkey, Su-Il In*, " Electrochemical CO2 Reduction to CO Catalyzed by 2D Nanostructures", Catalysts (2020) 10, 98 (doi:10.3390/catal10010098)
2. DaeWon Moon*, Young Ho Park, SunYoung Lee, Heejin Lim, SuHwa Kwak, Minseok Kim, Hyunmin Kim, Eunjoo Kim, Yebin Jung, Hyang-Sook Hoe, Sungjee Kim, Dong-Kwon Lim, Chul-Hoon Kim and Su-Il In* , ¡°Multiplex Protein Imaging with Secondary Ion Mass Spectrometry Using Metal Oxide Nanoparticle Conjugated Antibodies¡±, ACS Applied Materials and Interfaces (2020) 12, 18056-18064 https://doi.org/10.1021/acsami.9b21800 (the outside front cover, published on April 15 2020)
3. Yunju Hwang, Young Ho Park, Hong Soo Kim, Dae Hee Kim, Shahzad Ali, Saurav Sorcar, Monica Claire Flores, Michael R. Hoffmaan, and Su-il In*, "C-14 Powered Dye-Sensitized Betavoltaic Cells" Chemical Communications (2020) 56, 7080-7083 DOI: 10.1039/D0CC02046J (the outside front cover, Advance Article)
4. Juying Leia, Bin Chen, Liang Zhou, Ningkai Ding, Zhengqing Caia, Lingzhi Wang, Su-Il In, Changzheng Cui, Yanbo Zhoua, Yongdi Liu, Jinlong Zhang*, "Efficient Degradation of Antibiotics in Different Water Matrices through the Photocatalysis of Inverse Opal K-g-C3N4: Insights into Mechanism and Assessment of Antibacterial Activity," Chemical Engineering Journal, 400 (2020) 125902
5. Shahzad Ali, Junho Lee, Hwapyong Kim, Yunju Hwang, Abdul Razzaq, Jin-Woo Jung, Chang-Hee Cho and Su-Il In*, "Sustained, Photocatalytic CO2 Reduction to CH4 in a Continuous Flow Reactor by Earth-Abundant Materials: Reduced Titania-Cu2O Z-Scheme Heterostructures", Applied Catalysis B: Environmental, 279 (2020) 119344.
6. Abdul Razzaq, Shahzad Ali, Muhammad Asif, Su-Il In*, "Layered Double Hydroxide (LDH) based photocatalysts: An Outstanding Strategy for Efficient Photocatalytic CO2 Conversion", Catalysts (2020) 10(10), 1185.
7. Hong Soo Kim, Hansaem Choi, Monica Claire Flores, Abdul Razzaq, Young Seob Gwak, Danbi Ahn, Mi Seon Kim, Ogan Gurel, Bong Hyo Lee*, and Su-Il In*, "Noble Metal Sensitized Invasive Porous Bioelectrodes: Advanced Medical Device for Enhanced Neuronal Activity and Chronic Alcohol Treatment", RSC Advances (2020) 10, 43514 - 43522
8. Chaitanya B. Hiragond, Junho Lee,Hwapyong Kim, Jin-Woo Jung, Chang-Hee Cho, and Su-Il In*, "A novel N-doped graphene oxide enfolded reduced titania for highly stable and selective gas-phase photocatalytic CO2 reduction into CH4: An in-depth study on the interfacial charge transfer mechanism", Chemical Engineering Journal (2020) https://doi.org/10.1016/j.cej.2020.127978
9. Chaitanya B. Hiragond, Niket S. Powar, and Su-Il In *, "Recent developments in Lead and Lead-Free Halide Perovskite Nanostructures towards photocatalytic CO2 reduction", Nanomaterials (2020) 10, 2569
2019
1. Sung Hyun Lee, Kyeong-Seok Lee, Saurav Sorcar, Abdul Razzaq, Maan-Gee Lee, and Su-Il In*, "Novel Porous Brain Electrodes for Augmented Local Field Potential Signal Detection", Materials (2019) 12, 542 (1-8)
2. Young Ho Park, Seung Min Park, Kang-Won Jung, Yunju Hwang, Saurav Sorcar, Dae Woon Moon*, and Su-Il In* "Synthesis and Growth Mechanism of Stable prenucleated (≈ 0.8 nm diameter) PbS quantum dots by Medium Energy Ion Scattering Spectroscopy", Materials (2019) 12, 1109 (1-10)
3. Chaitanya Hiragond, Shahzad Ali, Saurav Sorcar, and Su-Il In*, "Hierarchical Nanostructured Photocatalysts for CO2 Photoreduction", Catalysts (2019) 9, 370 (1-25)
4. Saurav Sorcar, Yunju Hwang, Jaewong Lee, Hwapyong Kim, Keltin M. Grimes, Craig A. Grimes, Jin-Woo Jung, Chang-Hee Cho, Tetsuro Majima, Michael Hoffmaan, and Su-il In*, "CO2, Water, and Sunlight to Hydrocarbon Fuels: A Sustained Sunlight to Fuel (Joule-to-Joule) Photoconversion Efficiency of 1%", Energy & Environmental Science (2019) 12, 2685 - 2696 (the outside front cover, published on Sept. 2019)
5. Abdul Razzaq, and Su-il In*, "TiO2 Based Nanostructures for Photocatalytic CO2 Conversion to Valuable Chemicals", Mciromachines (2019) 10, 326 (1-25)
6. Sun-Jeong Bae, Junsik Lim, Sangmin Lee, Hansaem Choi, Jaehwan Jang, Yukang Kim, Ju-Young Oh, Jeong-Hoon Park, Hyuk-Sang Jung, Younbyoung Chae, Su-Il In* and Hi-Joon Park*, "Augmented mechanical forces of the surface-modified nanoporous acupuncture needles elicit enhanced analgesic effects", Frontiers in Neuroscience (2019) 13, 652 (DOI: 10.3389/fnins.2019.00652)
7. Shahzad Ali, Monica Claire Flores, Abdul Razzaq, Saurav Sorcar, Chaitanya B. Hiragond, Hye Rim Kim, Young Ho Park, Yunju Hwang, Hong Soo Kim, Hwapyong Kim, Eun Hee Gong, Junho Lee, Dongyun Kim and Su-Il In *, "Gas phase photocatalytic CO2 reduction, 'A brief overview for benchmarking'", catalysts (2019) 9, 272
8. Koh-Woon Kim, Sanhwa Hong, Hong Soo Kim, Taehun Kim, Jaeha Ahn, Hyun-Seo Song, Yu-Kang Kim, Ju-Young Oh, Tae-Yeon Hwang, Hyangsook Lee, Su-Il In*, Hi-Joon Park*, "Physiological impact of nanoporous acupuncture needles: laser Doppler perfusion imaging in healthy volunteers", PLoS ONE (2019) 14(12)
https://doi.org/10.1371/journal.pone.0226304
2018
1. Saurav Sorcar, Craig A Grimes, and Su-il In*, "The Biocompatibility of Nanoporous Acupunture Needles", Journal of Acupuncture and Meridian Studies 11(3) (2018) 107-115 (selected as the featured article of the issue of June 2018 / the cover image) (Online publication 7-Apr-2018)
2. Muhammad Zubair, Hye Rim Kim, Abdul Razzaq, Craig A. Grimes, and Su-il In*, "Solar spectrum photocatalytic conversion of CO2 to CH4 utilizing TiO2 nanotube arrays embedded with graphene quantum dots", Journal of CO2 Utilization 26 (2018) 70-79
3. Saurav Sorcar, Jamie Thompson, Yunju Hwang, Young Ho Park, Tetsuro Majima, Craig A. Grimes, James R. Durrant and Su-il In*, "High-Rate Solar-spectrum Photoconversion of CO2: Controllable Transition from C1 to C2 Products", Energy & Environmental Science 11 (2018) 3183 - 3193 (Advance Article / the outside front cover, published on Nov. 2018)
4. Ki Nam Kim, Sung Hyun Lee, Hwapyong Kim, Young Ho Park, and Su-Il In*, "Improved Microbial Electrolysis Cell Hydrogen Production by Hybridization with a TiO2 Nanotube Array Photoanode", Energies 11 (2018) 3184
5. Shahzad Ali, Abdul Razzaq, and Su-Il In*, "Development of Graphene Based Photocatalysts for CO2 Reduction to C1 Chemicals: A brief Overview", Catalysis Today 335 (2019) 39-54
2017
1. Hyeon-Woo Kim, Kyeong-Seok Lee, Abdul Razzaq, Sung Hyun Lee, and Craig A Grimes, and Su-il In*, "Photo-coupled Bio-anode: A New Approach for Improved Microbial Fuel Cell Performance", Energy Technology 6 (2018) 257-262 (accepted manuscript online 25 April 2017) (the Front Cover)
2. Abdul Razzaq, Apurba Sinhamahapatra, Tong-Hyung Kang, Craig A. Grimes, Jong-Sung Yu* and Su-il In*, "Efficient Solar Light Photoreduction of CO2 to Hydrocarbon Fuels via Magnesiothermally Reduced TiO2 Photocatalyst", Applied Catalysis B 215 (2017) 28-35 (online 8 May 2017)
3. Hye Rim Kim, Abdul Razzaq, Craig A. Grimes, and Su-Il In*, "Synthesis of Heterojunction p-n-p Cu2O/S-TiO2/CuO, and Application to the Photocatalytic Conversion of CO2 and Water Vapor to Methane", Journal of CO2 Utilization 20 (2017) 91-96 (online 10 June 2017)
4. Muhammad Zubair, Abdul Razzaq, Craig A. Grimes, Su-il In*, "Cu2ZnSnS4 (CZTS)-ZnO: A noble metal-free hybrid Z-scheme photocatalyst for enhanced solar-spectrum photocatalytic conversion of CO2 to CH4", Journal of CO2 Utilization 20 (2017) 301-311
5. Bo Ram Lee, Hye-Rim Kim, Eun-Sook Choi, Jung-Hoon Cho, Nam-Jun Kim, Jung-Hee Kim, Kyeong-Min Lee, Abdul Razzaq, Hansaem Choi, Yunju Hwang, Craig A. Grimes, Bong-Hyo Lee*, Eunjoo Kim*, and Su-il In*, "Enhanced Therapeutic Treatment of Colorectal Cancer Using Surface-Modified Nanoporous Acupuncture Needles", Scientific Reports 7 12900 (2017) (online 10 Oct. 2017) (Top 100 Scientific Report Oncology papers in 2017)
6. Saurav Sorcar, Yunju Hwang, Craig A. Grimes, and Su-il In*, "Highly Enhanced and Stable Activity of Defect Induced Titania Nanoparticles for Solar Light Driven CO2 Reduction into CH4", Materials Today Volume 20, Issue 9 (Nov. 2017) 507-515 (Available online 20 November 2017).
7. Sung Hyun Lee, Kyeong-Seok Lee, Saurav Sorcar, Abdul Razzaq, Craig A. Grimes, and Su-il In*, "Wastewater Treatment and Electricity Generation from a Sunlight-powered Single Chamber Microbial Fuel Cell", Journal of Photochemistry & Photobiology, A: Chemistry 358 (2018) 432-440 (Available online 8 November 2017).
8. Miyeon Lee, Young Ho Park, Eun Bi Kang, Ari Chae, Yujin Choi, Seongho Jo, Yu Jin Kim, Soo-Jin Park, Byunggak Min, Tae Kyu An, Jihoon Lee, Su-Il In, Sang Youl Kim*, Sung Young Park*, and Insik In*, "Highly Efficient Visible Blue-Emitting Black Phosphorus Quantum Dot: Mussel-Inspired Surface Functionalization for Bioapplications", ACS Omega 2017, 2, 7096-7105
2016
1. Abdul Razzaq, Craig A. Grimes*, and Su-Il In*, "Facile Fabrication of a Noble Metal-Fee Photocatalyst: TiO2 Nanotube Arrays Covered with Reduced Graphene Oxide", Carbon 98 (2016) 537-544. (online 23rd Nov. 2015)
2. Hye Rim Kim, Gonu Kim, Su-il In*, and Yiseul Park*, "Optimization of porous BiVO4 photoanode from electrodeposited Bi electrode: Structural factors affecting photoelectrochemical performance", Electrochimica Acta 189 (2016) 252-258 (online 17 Dec. 2015)
3. Kidon Kim, Abdul Razzaq, Saurav Sorcar, Yiseul Park, Craig A. Grimes, and Su-il In*, "Hybrid Mesoporous Cu2ZnSnS4(CZTS)-TiO2 Photocatalyst for Efficient Photocatalytic Conversion of CO2 into CH4 under Solar Irradiation" RSC Advances 6 (2016) 38964-38967.
4. Su-il In*, Young S. Gwak, Hye Rim Kim, Abdul Razzaq, Kyeong-Seok Lee, Hee Young Kim, SuChan Chang, Bong Hyo Lee, Craig A. Grimes, and Chae Ha Yang*, "Hierarchical Micro/Nano-Porous Acupuncture Needles Offering Enhanced Therapeutic Properties", Scientific Reports 6, 34061 (2016)
5. Saurav Sorcar, Abdul Razzaq, Haining Tian, Craig A. Grimes, and Su-il In*, "Facile Electrochemical Synthesis of Anatase Nano-architectured Titanium Dioxide Films with Reversible Superhydrophilic Behavior", Journal of Industrial and Engineering Chemistry 46 (2017) 203-211 (available on line 31 Oct 2016).
6. Seung-Min Park, Abdul Razzaq, Young Ho Park, Saurav Sorcar, Yiseul Park, Craig A. Grimes, and Su-Il In*, "Hybrid CuxO-TiO2 Heterostructured composites for Photocatalytic CO2 Reduction into Methane by Solar Irradiation: Sunlight into Fuel", ACS Omega, (2016) 1, 868-875
2015
1. Sreenivasan K Parayil, Abdul Razzaq, Seung-Min Park, Craig A Grimes*, and Su-Il In*, "Photocatalytic Conversion of CO2 to Hydrocarbon Fuel using Carbon and Nitrogen co-doped Sodium Titanate Nanotubes", Applied Catalysis A: General, 498, 2015, 205-213.
2. Marie Kim, Hyeon Woo Kim, Joo-Youn Nam, and Su-Il In*, " Recent Progress of Nanostructure Modified Anodes in Microbial Fuel Cells", J. Nanosci. Nanotechnol. 15, 6891-6899 (2015).
3. Sreenivasan Koliyat Parayil, Abdul Razzaq, and Su-Il In*, " Formation of Titania-Silica Mixed Oxides in Solvent Mixtures and Their Influences for the Photocatalytic CO2 Conversion to Hydrocarbon", J. Nanosci. Nanotechnol. 15, 7285-7292 (2015)
4. Jung-Hee Kim, Hye-Rim Kim, Bo-Ram Lee, Eun-Sook Choi, Su-Il In*, and Eunjoo Kim*, "Carcinogenic activity of PbS quantum dots screened using exosomal biomarkers secreted from HE K293 cells", Int. J. Nanomedicine, 2015, 5513 - 5528
5. Sunwook Hwang, Dae-Hwan Kim, Dae-Ho Son, Kee-Jeong Yang, Dahyun Nam, Hyeonsik Cheong, Jin-Kyu Kang*, and Su-il In*, "Effects of a pre-annealing treatment (PAT) on Cu2ZnSn(S,Se)4 thin films prepared by rapid thermal processing (RTP) selenization", Solar Energy Materials and Solar Cells, 143, 2015, 218-225
2014
1. Hyeonseok Lee, Su-Il In*, Mark W. Horn*, "Plasmonic enhancement of CO2 conversion to methane using sculptured copper thin films grown directly on TiO2", Thin Solid Films, 2014, 565, 105-110.
2. Minju Kim, Abdul Razzaq, Young Kwang Kim, Soonhyun Kim*, and Su-Il In*, "Synthesis and Characterization of Platinum Modified TiO2-Embedded Carbon Nanofibers for Solar Hydrogen Generation", RSC Advances, 2014, 4, 51286-51293 (DOI: 10.1039/C4RA08455A)
3. Minju Kim, Young Kwang Kimb, Sang Kyoo Lim, Soonhyun Kim, Su-Il In, "Efficient visible light-induced H2 production by Au@CdS/TiO2 nanofibers: Synergistic effect of core-shell structured Au@CdS and densely packed TiO2 nanoparticles, Applied Catalysis B: Environmental, Volume 166-167, 2015, 423-431 (available online 25 Nov. 2014) (doi:10.1016/j.apcatb.2014.11.036)
2013
1. H. R. Kim, A. Razzaq, H. J. Heo and S. -I. In*, "Photocatalytic conversion of CO2 into hydrocarbon fuels with standard titania (Degussa P25) usingnewly installed experimental setup" Rapid Communication in Photoscience, 2013, 2 (2), 64-66.
2. J. W. Lee, S. -I. In, and J. -D. Kim, ¡°Remarkable Stability of Graphene/Ni-Al Layered Double Hydroxide Hybrid Composites for Electrochemical Capacitor Electrodes¡±Journal of Electrochemical Science and Technology, 2013, 4 (1), 19-26.
2006 ~ 2012
1. S. -I. In, K. P. Almtoft, H. Lee, I. H. Andersen, D. Qin, N. Bao, and C. A. Grimes, ¡°Low temperature synthesis of transparent, vertically aligned anatase TiO2nanowire arrays: Application to dye sensitized solar cells¡±, Bulletin of the Korean Chemical Society, 2012, 33 (6), 1989-1992.
2. S. -I. In, D. D. Vaughn II, and R. E. Schaak, ¡°Hybrid CuO-TiO2-xNx hollow nanocubes for photocatalytic CO2 conversion to methane under Solar Irradiation¡±,Angewandte Chemie International Edition, 2012, 51, 3915- 3918. It has been chosen as a "Hot Paper" by the Editors for its importance in a rapidly evolving field of high current interest.
3. M. G. Nielsen, S. -I. In, P. C. K. Vesborg, T. Pedersen, K. P. Almtoft, I. H. Andersen, O. Hansen, I. Chorkendorff, ¡°A generic model for photocatalytic activity as a function of catalyst thickness¡±, Journal of Catalysis, 2012, 289, 62-72.
4. S. -I. In and R. Berg, ¡°Visible light induced degradation of methylene blue on titanium oxo ethoxo clusters of type Ti16O16(OEt)32¡±, Asian Journal of Chemistry, 2012, 24(1) 428-432.
5. D.-D. Qin, C.-L. Tao, S. -I. In, Z.-Y. Yang, T. E. Mallouk, and C. A Grimes, ¡°A facile solvothermal method for fabricating arrays of vertically oriented alpha-Fe2O3nanowires and their application in photoelectrochemical water oxidation¡±, Energy & Fuels, 2011, 25, 5257-5263.
6. D. D. Vaughn II, S. -I. In, and R. E. Schaak, ¡°A Precursor-Limited Nanoparticle Coalescence Pathway for Tuning the Thickness of Laterally-Uniform Colloidal Nanosheets: The Case of SnSe¡±, ACS NANO, 2011, 5(11), 8852-8860.
7. S. -I. In, ¡°È¿À²ÀûÀÎ °¡½Ã±¤ È°¼º À½ÀÌ¿Â µµÇÎ ±¤Ã˸Å(Efficient visible light activated anion doped photocatalysts)¡±, Korean Chemical Engineering Research, 2011, 49 (5) 505-509.
" 8. S. -I. In, P. C. K. Vesborg, B. L. Abrams, Y. Hou, and I. chorkendorff ¡°A comparative study of two techniques for determining photocatalytic activity of nitrogen doped TiO2 nanotubes under visible light irradiation: photocatalytic reduction of dye and photocatalytic oxidation of organic molecules¡±, Journal of Photochemistry and Photobiology A: Chemistry, 2011, 222(1), 258-262.
9. S. -I. In ¡°Comparison of photocatalytic performance of Degussa TiO2 P25 and P90 in gas phase photocatalytic reactor¡±, Asian Journal of Chemistry, 2011, 23 (6), 2629 - 2631.
10. S. -I. In, M. G. Nielsen, P. C. K. Vesborg, Y. Hou, B. L. Abrams, T. R. Henriksen, O. Hansen and I. chorkendorff ¡°Photocatalytic methane decomposition over vertically aligned transparent TiO2 nanotube arrays¡±, Chemical Communications, 2011, 47 (9), 2613 - 2615.
11. P. C. K. Vesborg, S. -I. In, J. L. Olsen, T. R. Henriksen, B. L. Abrams, Y. Hou, A. Kleinman-Shwarsctein, O. Hansen and I. Chorkendorff ¡°Quantitative measurements of photocatalytic CO-oxidation as a function of light intensity and wavelength over TiO2 nanotube thin films in ¥ì-reactors¡±, the Journal of Physical Chemistry C, 2010, 114 (25), 11162-11168.
12. M. Jariyahoon, P. M©ªller, R. E. Dunin-Borkowski, S. -I. In, I. Chorkendorff and R. Ambat, ¡°The effect of atmospheric corona treatment on AA1050 aluminum¡±, Corrosion Science, 2010, 52 (6), 2155-2163.
13. S. -I. In, Y. Hou, B. Abrams, P. Vesborg and I. Chorkendorff, ¡°Controlled directional growth of TiO2 nanotubes¡±, Journal of the Electrochemical Society, 2010, 157 (5), E69-E74.
14. S. -I. In, A. kean, A. Orlov, M. Tikhov and R. M. Lambert, ¡°A versatile new method for synthesis and deposition of doped, visible light-activated TiO2 thin films on any kind of solid surface¡± Energy & Environmental Science, 2009, 2(12), 1277-1279.
15. L. L. P. Lim, R. J. Lynch and S. -I. In, ¡°Comparison of simple and economical photocatalyst immobilisation procedures¡±, Applied Catalysis A: General, 2009, 365 (2), 214-221.
16. S. -I. In, A. Orlov, R. Berg, F. Garcia, S. P-Jimenez, M. Tikhov, D. S. Wright and R. M. Lambert, ¡°Effective visible light-activated B-doped and B,N-codoped TiO2photocatalysts¡± Journal of the American Chemical Society, 2007, 129 (45), 13790-13791.
17. S. -I. In, A. Orlov, F. Garcia, M. Tikhov, D. S. Wright and R. M. Lambert, ¡°Efficient visible light-active N-doped TiO2 photocatalysts by a reproducible and controllable synthetic route¡± Chemical Communications, 2006, 40, 4236 - 4238.
Books
1. Palas Baran Pati, SU-IL IN and Haining Tian ¡°Visible-Light Driven Hydrogen Production by Carbon-based Polymeric Materials (chapter 8)" in the book ¡®Visible-Light Photocatalysis of Carbon-based Materials (ISBN 978-953-51-5612-3) Publisher: IntechOpen // DOI: 10.5772/intechopen.70444 (Published: April. 18. 2018)
Domestic Patents (±¹³»Æ¯Çã)
1. ÀμöÀÏ, ±èÇý¸², ±èÇö½Ä, ¡®´Ù°ø¼º ¼öÁöħ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý¡¯,
Ãâ¿ø¹øÈ£ 10-2014-0146230 (2014.10.27.)2. ÀμöÀÏ, ±èÇý¸², ¾ÐµÑ ¶óÀÚÅ©, '´Ù°ø¼º Çѹæħ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý',
ƯÇã µî·Ï Á¦ 10-1458486 È£ (2014.10.30.)3. ÀμöÀÏ, °µ¿±Õ, ÀÌÁØÈ£, Á¤´ö±â, ÇÏÃæȯ, ¹ÚÁö¼º, ¡®Á¶Á¤¿ë °æ±â·Â ºÐ¼® ÀåÄ¡ ¹× ¹æ¹ý¡¯,
Ãâ¿ø¹øÈ£ 10-2014-0158960 (2014.11.14.)4. ÀμöÀÏ, ±èÇö¿ì, ¡®±¤-¹ÙÀÌ¿À ÇÏÀ̺긮µå ¹Ì»ý¹° ¿¬·áÀüÁö¡¯,
Ãâ¿ø¹øÈ£ 10-2014-0193425 (2014.12.30.)5. Gyu Young Kim, Su-il In, Nam Kil Chung, ¡°Ion generating device using Surface discharge element and Photocatalytic Honeycomb Filter
(¿¬¸é¹æÀüü ¹× ¾¾ºêµð±¤Ã˸ÅÇÊÅͺθ¦ ÀÌ¿ëÇÑ ÀÌ¿Â ¹ß»ýÀåÄ¡)¡± ƯÇãµî·Ï Á¦1167146È£
6. ÀμöÀÏ, '¾ç±Ø »êÈ ÀåÄ¡'
Ãâ¿ø¹øÈ£ 10-2016-0027831 (2016. 3. 8.)
7. ÀμöÀÏ, ±èÇý¸², ±èÇö½Ä, ¡®´Ù°ø¼º ¼öÁöħÀÇ Á¦Á¶¹æ¹ý¡¯,
ƯÇã µî·Ï Á¦ 10-1615749È£ (2016. 4. 20.)
8. ÀμöÀÏ, ±èÇý¸², ±èÇö½Ä, ¡®´Ù°ø¼º ¼öÁöħ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý¡¯,
ƯÇã µî·Ï Á¦ 10-1615750È£ (2016. 4. 20.)
9. ÀμöÀÏ, ¾ÐµÑ ¶óÀÚÅ©, 'ȯ¿øµÈ ±×·¡ÇÉ ¿Á»çÀ̵å-ÀÌ»êÈƼŸ´½ ³ª³ëÆ©ºê ±¸Á¶Ã¼ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý'
Ãâ¿ø¹øÈ£ 10-2016-0155959 (2016. 11. 22.)
10. ÀμöÀÏ, '¾ç±Ø »êÈ ÀåÄ¡'
ƯÇã µî·Ï Á¦ 10-1698531 (2017. 1. 16.)
11. ÀμöÀÏ, °µ¿±Õ, ÀÌÁØÈ£, Á¤´ö±â, ÇÏÃæȯ, ¹ÚÁö¼º, ¡®Á¶Á¤¿ë °æ±â·Â ºÐ¼® ÀåÄ¡ ¹× ¹æ¹ý¡¯,
ƯÇã µî·Ï Á¦ 10-1698502 (2017. 1. 16.)
12. ÀμöÀÏ, ±èÇö¿ì, '±¤-¹ÙÀÌ¿À ÇÏÀ̺긮µå ¹Ì»ý¹° ¿¬·áÀüÁö'
ƯÇã µî·Ï Á¦ 10-201400193425 (2017. 3. 31.)
13. ÀμöÀÏ, ÃÖÇÑ»ù, '±Í±Ý¼Ó ³ª³ëÀÔÀÚ°¡ µµ±Ý± ´Ù°ø¼º ¼öÁöħ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý'
Ãâ¿ø¹øÈ£ 10-2017-0053570 (2017. 4. 26)
14. ÀμöÀÏ, ±èÇý¸², À̽ÂÇö, ÀÌ°æ¼®, ÃÖÇÑ»ù, '°í°¨µµ ħ½ÀÇü ´Ù°ø¼º ³úÀü±Ø, ÀÌÀÇ Á¦Á¶¹æ¹ý ¹× À̸¦ ÀÌ¿ëÇÑ ³úÆÄÃøÁ¤¹æ¹ý
Ãâ¿ø¹øÈ£ 10-2017-0092787 (2017.7.21)
15. ÀμöÀÏ, ±èÇý¸², ±è´ëÈñ, '³ú°¡¼Ò¼º ¿¬±¸¿ë ¼¾¼ÀÇ Àü¿ø°ø±Þȸ·Î'
Ãâ¿ø¹øÈ£ 10-2017-0169593 (2017.12.11)
16. ÀμöÀÏ, ¶óÀÚÅ© ¾ÐµÑ, 'ȯ¿øµÈ ±×·¡ÇÉ ¿Á»çÀ̵å-ÀÌ»êÈƼŸ´½ ³ª³ëÆ©ºê ±¸Á¶Ã¼ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý'
µî·Ï¹øÈ£ (2018. 2. )
17. ÀμöÀÏ, ¼ÖÄ« ¼Ò·Îºê, '¹é±Ý ³ª³ëÀÔÀÚ°¡ ±¤ÁõÂøµÈ ºí·ç ƼŸ´Ï¾Æ ³ª³ëÀÔÀÚ, ÀÌÀÇ Á¦Á¶¹æ¹ý ¹× À̸¦ ÀÌ¿ëÇÏ¿© CO2ÀÇ CH4 Àüȯ ¹æ¹ý (platinum nanoparticle-photodeposited blue titania nanoparticle, manufacturing method thereof and method for conversion of CO2 to CH4 using the same)'
Ãâ¿ø¹øÈ£ 10-2018-0064321 (2018. 6. 4)
µæÇãµî·Ï 10-2082872 (2020. 2. 24)
18. ÀμöÀÏ, 'ºñ±Ý¼Ó-ÇÏÀ̺긮µå ZÇü ±¤Ã˸Å, ÀÌÀÇ Á¦Á¶¹æ¹ý ¹× À̸¦ ÀÌ¿ëÇÑ CO2ÀÇ CH4 Àüȯ ¹æ¹ý (A noble metal-free hybrid Z-scheme photocatalyst, Manufacturing method thereof, and method for conversion of CO2 to CH4 using the same)'
Ãâ¿ø¹øÈ£ 10-2018-0054258 (2018. 5. 11)
ƯÇã¹øÈ£ 10-2090194 (2020. 3. 11)
19. ÀμöÀÏ, ±èÇý¸², 'p-n-p ÇìÅ×·Î Á¢ÇÕ ±¸Á¶ÀÇ ±¤Ã˸Å, ÀÌÀÇ Á¦Á¶¹æ¹ý ¹× À̸¦ ÀÌ¿ëÇÏ¿© CO2ÀÇ CH4·Î Àüȯ ¹æ¹ý (A p-n-p heterojunction photocatalyst, Manufacturing method thereof, and method for conversion of CO2 to CH4 using the same)'
Ãâ¿ø¹øÈ£ 10-2018-0054259 (2018. 5. 11)
µî·Ï°áÁ¤ 10-2061804 (2019. 12. 26)
20. ÀμöÀÏ, ¼ÖÄ« ¼Ò·Îºê, '¹é±Ý ³ª³ëÀÔÀÚ°¡ ±¤ÁõÂøµÈ ±×·¡ÇÉÀ¸·Î ·¦ÇÎµÈ ºí·ç ƼŸ´Ï¾Æ º¹ÇÕü, ÀÌÀÇ Á¦Á¶¹æ¹ý ¹× À̸¦ ÀÌ¿ëÇÑ CO2ÀÇ ¼±ÅÃÀû ±¤Àüȯ ¹æ¹ý (Platinum nanoparticle-photodeposited graphene wrapping blue titania composite, manufacturing method for selective photo-conversion of CO2)'
Ãâ¿ø¹øÈ£ 10-2019-0077038 (2019. 6. 27)
ƯÇã¹øÈ£ 10-2219540 (2021.2.18)
21. ÀμöÀÏ, ±è´ëÈñ, '³ú°¡¼Ò¼º ¿¬±¸¿ë ¼¾¼ÀÇ ¹«¼± Àü¿ø°ø±Þȸ·Î (Wireless power supply circuit of sensor for brain)'
Ãâ¿ø¹øÈ£ 10-2019-0111524 (2019. 9. 9)
22. ÀμöÀÏ, ÃÖÇÑ»ù, '±Í±Ý¼Ó ³ª³ëÀÔÀÚ°¡ µµ±ÝµÈ ´Ù°ø¼º ¼öÁöħ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý'
µî·Ï¹øÈ£ 10-1913568 (2018. 10. 25)
23. Photocatalyst for selective photo-conversion of carbon dioxide, Manufacturing method thereof and Method for selective photo-conversion of carbon dioxide using the same (CO2ÀÇ ¼±ÅÃÀû ±¤Àüȯ¿ë ±¤Ã˸Å, ÀÌÀÇ Á¦Á¶¹æ¹ý ¹× À̸¦ ÀÌ¿ëÇÑ CO2ÀÇ ¼±ÅÃÀû ±¤Àüȯ ¹æ¹ý)
Patent application number: 10-2019-0151630 (2019-11-22)
Inventor: SUIL IN, Saurav Sorcar, Yunju Hwang, Junho Lee
24. Title: Bimetallic blue titania composite, manufacturing method thereof and Method for photo-conversion of CO2 using the same(¹ÙÀ̸ÞÅ»¸¯-ºí·ç ƼŸ´Ï¾Æ º¹ÇÕü, ÀÌÀÇ Á¦Á¶¹æ¹ý ¹× À̸¦ ÀÌ¿ëÇÑ CO2ÀÇ ±¤Àüȯ ¹æ¹ý)
Patent application number: 10-2019-0147793(2019-11-18)
Inventor: Su-il In, Saurav Sorcar, Yunju Hwang, Hwapyong Kim
25. Titile: Carbon electrode for betavoltaic battery, Betavoltaic battery using the same and manufacturing method thereof (º£Å¸ÀüÁö¿ë ź¼ÒÀü±Ø, À̸¦ Æ÷ÇÔÇÏ´Â º£Å¸ÀüÁö ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý )
Patent application number: 10-2019-0176784 (2019-12-27)
Inventor: Su-il In, Yunju Hwang, DaeHee Kim, Young-ho Park, Hong-Soo Kim
26. Title: PbS quantum-dot having subnanometer size and Manufacturing method thereof (¼ºê³ª³ë¹ÌÅÍ Å©±âÀÇ È²È³³ ¾çÀÚÁ¡ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý)
Patent application number:10-2020-0022985 (2020-02-25)
Inventor: Su-il In, Young-ho Park, Seung-min Park
27. Title: ºñ±Í±Ý¼Ó-ÇÏÀ̺긮µå ZÇü ±¤Ã˸Å, ÀÌÀÇ Á¦Á¶¹æ¹ý ¹× À̸¦ ÀÌ¿ëÇÏ¿© CO2ÀÇ CH4 Àüȯ ¹æ¹ý
Patent appilcation number: 10-2018-0054258
Inventor: Su-il In
28. Title: ±¤Ã˸Å, ÀÌÀÇ Á¦Á¶¹æ¹ý¹× À̸¦ ÀÌ¿ëÇÏ¿© CO2ÀÇ CH4·Î Àüȯ ¹æ¹ý{Photocatalyst, Manufacturing method thereof, and method for conversion of CO2 to CH4using the same}
Patent appilcation number: 10-2020-0180041
Inventor: Su-il In, Ali Shahzad, ±èÈÆò, ÀÌÁØÈ£, ȲÀ±ÁÖ
International Patents (±¹Á¦Æ¯Çã)
1. B. Abrams, P. Vesborg, I. Chorkendorff, Y. Hou S. -I. In and Konard Herbert ¡°Materials for photoelectrocatalytic hydrogen production¡±, 2011. 07. 21. Patent No. WO2011085731, English, International Bureau of the World Intellectual Property Organization (WIPO).
2. ÀμöÀÏ, ±èÇý¸², ¶óÀÚÅ© ¾ÐµÑ, '´Ù°ø¼º Çѹæħ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý' PCTÃâ¿ø¹øÈ£ : PCT/KR2014/006505 (2014.07.17)
3. ÀμöÀÏ, ±èÇý¸², ±èÇö½Ä, PCTÃâ¿ø¹øÈ£ : PCT/KR2015/002432 (2015. 03.13.)
4. ÀμöÀÏ, ±èÇö¿ì, PCTÃâ¿ø¹øÈ£ : PCT/KR2015/005020 (2015. 5. 19.)
5. ÀμöÀÏ, ±èÇý¸², ¶óÀÚÅ© ¾ÐµÑ, '´Ù°ø¼º Çѹæħ ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý' ¹Ì±¹ Ãâ¿ø¹øÈ£ 15/120,633 (2016. 8. 22.)
À¯·´ Ãâ¿ø¹øÈ£ 14884212.3 (2016. 8. 30.)
Áß±¹ Ãâ¿ø¹øÈ£ 201480076269.6 (2016. 8. 24.)
ÀϺ» Ãâ¿ø¹øÈ£ 2016-554196 (2016. 8. 25.)
È«Äá Ãâ¿ø¹øÈ£ 16114210.7 (2016. 12. 14.)
¹Ì±¹Æ¯Çãµî·Ï US 10245211 B2 (2019. 4. 2)
À¯Çé(µ¶ÀÏ, ÇÁ¶û½º)ƯÇãµî·Ï 3100709 (2019. 4. 3)
Áß±¹Æ¯Çãµî·Ï ZL201480076269.6 (2018. 9. 14)
ÀϺ»Æ¯Çãµî·Ï 6367350 (2018. 7. 13)
6. ÀμöÀÏ, '¾ç±Ø »êÈ ÀåÄ¡' PCT-KR2017-002532 (2017. 03. 08.)
7. ÀμöÀÏ, ȲÀ±ÁÖ, ±è´ëÈñ, ¹Ú¿µÈ£, ±èÈ«¼ö, ¿°·á°¨ÀÀ º£Å¸ÀüÁö¿ë ź¼ÒÀü±Ø, À̸¦ Æ÷ÇÔÇÏ´Â º£Å¸ÀüÁö ¹× ÀÌÀÇ Á¦Á¶¹æ¹ý (Carbon electrode for dye-sensitized betavoltaic battery, Betavoltaic battery using the same and manufacturing method thereof)
Ãâ¿ø¹øÈ£ PCT-KR2020-016165 (Ãâ¿øÀÏ 20-11-17)
