Crystallogrphic structure database (cif file download)
Ionic radii (Shannon's) database
X-ray Photoelectron Spectroscopy (XPS) database
Family Research Groups
- Prof. Xiaolin Zheng (Stanford Univ., ME, 스텐포드대 기계): https://web.stanford.edu/group/zheng/
- Prof. Hyun Suk Jung (SKKU, MSE, 성균관대 신소재): http://eenl.skku.edu/
- Prof. Sangwook Lee (KNU, MSE, 경북대 신소재): https://wook20.wixsite.com/neml
- Prof. Dong Hoe Kim (Sejong Univ, 세종대 신소재): https://scholar.google.co.kr/citations?user=DGjsATkAAAAJ&hl=ko
- Prof. Dong Wan Kim (Korea Univ, 고려대 건축사회환경): https://dwkim.korea.ac.kr:447
- Prof. Jung Hong Noh (Korea Univ, 고려대 건축사회환경): http://advenergy.korea.ac.kr/
- Prof. Jin Young Kim (SNU, MSE, 서울대 신소재): http://solarmat.snu.ac.kr/main/
- Prof. Jong Seong Kim (MJU, MSE):
- Prof. Jun Kun Lee (Pittsburgh Univ, ME, 피츠버그대 기계재료):https://www.engineering.pitt.edu/JungKunLee/
- Prof. Chan Woo Lee (Kookmin Univ., Chem., 국민대 화학과): https://sites.google.com/view/cwlee1/
- Prof. Dong Rip Kim (Hanyang Univ., ME, 한양대 기계): http://nanoe.hanyang.ac.kr/index.php
- Prof. Chi Hwan Lee (Perdue Univ., ME, 퍼듀대 기계): https://engineering.purdue.edu/BioNanoTronics/
- Prof. Lili Cai (UIUC, ME, 일리노이대 기계): https://cai.mechse.illinois.edu/people/
- Prof. Pratap M. Rao (WPI, ME, 우스터 폴리테크닉대학 기계): http://nanoenergy.wpi.edu/
- Prof. Hyun Suk Jung (SKKU, MSE, 성균관대 신소재): http://eenl.skku.edu/
- Prof. Sangwook Lee (KNU, MSE, 경북대 신소재): https://wook20.wixsite.com/neml
- Prof. Dong Hoe Kim (Sejong Univ, 세종대 신소재): https://scholar.google.co.kr/citations?user=DGjsATkAAAAJ&hl=ko
- Prof. Dong Wan Kim (Korea Univ, 고려대 건축사회환경): https://dwkim.korea.ac.kr:447
- Prof. Jung Hong Noh (Korea Univ, 고려대 건축사회환경): http://advenergy.korea.ac.kr/
- Prof. Jin Young Kim (SNU, MSE, 서울대 신소재): http://solarmat.snu.ac.kr/main/
- Prof. Jong Seong Kim (MJU, MSE):
- Prof. Jun Kun Lee (Pittsburgh Univ, ME, 피츠버그대 기계재료):https://www.engineering.pitt.edu/JungKunLee/
- Prof. Chan Woo Lee (Kookmin Univ., Chem., 국민대 화학과): https://sites.google.com/view/cwlee1/
- Prof. Dong Rip Kim (Hanyang Univ., ME, 한양대 기계): http://nanoe.hanyang.ac.kr/index.php
- Prof. Chi Hwan Lee (Perdue Univ., ME, 퍼듀대 기계): https://engineering.purdue.edu/BioNanoTronics/
- Prof. Lili Cai (UIUC, ME, 일리노이대 기계): https://cai.mechse.illinois.edu/people/
- Prof. Pratap M. Rao (WPI, ME, 우스터 폴리테크닉대학 기계): http://nanoenergy.wpi.edu/
Artificial Photosynthesis, Electrocatalysis, Photocatalysis research groups
- Prof. Thomas Jaramillo (Stanford univ., ChemE, USA): https://jaramillogroup.stanford.ed
- Prof. Chong Liu (UCLA, Chem, USA): https://cliulab.com/
- Prof. Stacey Bent (Stanford Univ., Chem/MSE, USA): http://bentgroup.stanford.edu/
- Prof. Chong Liu (UCLA, Chem, USA): https://cliulab.com/
- Prof. Stacey Bent (Stanford Univ., Chem/MSE, USA): http://bentgroup.stanford.edu/
Fuel-Cell research groups
- Prof. P Fritz B. Prinz (Stanford Univ., ME, USA): https://nplab.stanford.edu/
Nanomaterials, Nanotechnology, Surface & Interfaces research groups
- Prof. Yi Cui (Stanford Univ., MSE, USA): https://web.stanford.edu/group/cui_group/
- Prof. Paul McIntyre (Stanford Univ., MSE, USA): https://mcintyre.stanford.edu/
- Prof. Paul McIntyre (Stanford Univ., MSE, USA): https://mcintyre.stanford.edu/
Batteries research groups
- Prof. Peidong Yang (UC Berkeley., Chem, USA): http://nanowires.berkeley.edu/
III-V semiconductor research groups
High Entropy Alloys (HEAs) research groups
- Dr. Zhiming Li (Max Plank Institute, German): https://www.mpie.de/3679520/high_entropy_alloys
Artificial Photosynthesis: Saving Solar Energy for a Rainy Day
--> https://www.osa- opn.org/home/articles/volume_24/february_2013/features/artificial_photosynthesis_saving_solar_energy_for/#.VQKGeUeUcb0
"In an effort to keep up with the world’s growing energy needs, researchers consider a production method that is billions of years old—photosynthesis. Artificial photosynthesis could provide us with a way to capture the sun’s energy and store it for later use" |
Is Solar Energy Really Abundant?
--> http://www.public.asu.edu/~tam277/discussion5.html
"Human activity and especially our reliance on burning fossil fuels has affected planet wide systems, resulting in a precarious future for the global ecosystem (Rockström et al. 2009). The magnitude of the energy reaching the Earth from the sun makes solar energy conversion a likely part of any alternative energy future that does not rely on the use of fossil fuel yet still satisfies society’s energy demand (Armaroli and Balzani 2007). The immense scale of solar irradiance, however, means little without an efficient means of converting it to useful forms such as electricity or an energy-dense and transportable fuel. Developing a system for converting an abundant and readily available precursor into a fuel using solar radiation as the sole energy input is the primary goal of artificial photosynthesis (Bard and Fox 1995; Gust et al. 2009)...." |
Periodic Table/주기율표
- Easy use & Simple search: Atomic weight, Tmelt, Tboil
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