Organization:Hoffmann Institute of Advanced Materials

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Hoffmann Institute of Advanced Materials, outside view

The Hoffmann Institute of Advanced Materials (HIAM) is a science research institute affiliated to Shenzhen Polytechnic in Shenzhen, China .[1] As the eighth institute at Shenzhen named after a Nobel laureate, it was founded in February 2018[2] under the tutelage of the theoretical chemist Roald Hoffmann.[3] The institute was officially opened with a formal ceremony in May 2019.[4][5][6][7]  

Hoffmann Institute of Advanced Materials, entrance area

Its research topics cover novel functional materials, with an emphasis on their properties and applications in new energy and renewable energy fields. The institute's key research areas are photo-electric materials, energy-storage materials, and energy-efficient materials. The institute consists of three departments: a computational laboratory, a materials research laboratory, and a device commercialization laboratory.

The institute holds strong ties with other international laboratories dealing with energy-related research, including those from Kyoto and Osaka (Japan), Aachen and Düsseldorf (Germany), NIST (U.S.), and Skoltech (Russia).[8] Likewise, the institute collaborates in regard to the chemistry, physics, and materials science of complex mixed-anion inorganic compounds with universities and research institutions in Kyoto (Japan), Oxford (UK), Antwerp (Belgium), and Bordeaux (France).[9]

Advisory board

The institute is supported by a high-level advisory board, which currently includes Lin Jianhua, Francis J. DiSalvo, Galen Stucky, Maochun Hong, Xiaoming Chen, Robert Cava, and Markus Antonietti.

Research accomplishments

Recent characteristic research with the institute as first affiliation[10] has been dealing with the encapsulation of multiple dyes into nanocrystalline metal-organic frameworks for energy-efficient lighting devices,[11] the clarification of the real-time formation mechanism of quantum wells for stable and efficient perovskite photovoltaics,[12] the encapsulation of a porous organic cage into the pores of a metal-organic framework for enhanced CO2 separation,[13] the design of metal-organic frameworks for alkane separation[14] and adsorption of noble gases such as xenon,[15] the synthesis of a chemically stable cucurbit[6]uril-based hydrogen-bonded organic framework for SO2/CO2 separation,[16] the first-principles prediction of nitrogen-based transition-metal guanidinates TCN3 and ortho-nitrido carbonates T2CN4 for photoelectrochemistry,[17] the mechanochemical one-pot fabrication of a monolithic cucurbituril−encapsulating metal−organic framework from a flowing gel,[18] and the prediction of BeCN2 as the lightest representative of II–IV–V2 compounds.[19]

By the end of 2021, the institute had published several key papers in outstanding international journals such as the Journal of the American Chemical Society.[20] Based on this achievement, the Shenzhen Polytechnic already made it into the top 200 Chinese institutions within Nature's publication index.[21]

References

  1. "Shenzhen Polytechnic (SZPT)". https://www.natureindex.com/institution-outputs/china/shenzhen-polytechnic-szpt/58cfacc4140ba0da7e8b4569. 
  2. "Ten Nobel prize-winning laboratories tell you: why do top scientists favor Shenzhen?". http://www.yidianzixun.com/article/0IK2xr28. 
  3. "Nobel prize winner to set up advanced materials lab". http://www.eyeshenzhen.com/content/2018-01/15/content_18720803.htm. 
  4. "Focusing on new energy and clean materials, the Hoffmann Institute for Advanced Materials of Shenzhen Polytechnic was inaugurated". http://www.sznews.com/news/content/2019-05/20/content_21997318.htm. 
  5. "Inauguration Ceremony of Hoffmann Institute for Advanced Materials and International Symposium on Advanced Functional Materials". https://www.szpt.edu.cn/info/1025/7297.htm. 
  6. "Inauguration Ceremony of Hoffmann Institute of Advanced Materials and International Symposium on Advanced Functional Materials held at Shenzhen Polytechnic". http://edu.gd.gov.cn/zxzx/gdjy/content/post_2470829.html. 
  7. "The Hoffmann Institute for Advanced Materials of Shenzhen Polytechnic was inaugurated". http://economy.southcn.com/e/2019-05/23/content_187590364.htm. 
  8. "Skoltech imaging resources used in international experiment with new photocatalysts" (in en). https://www.eurekalert.org/pub_releases/2021-02/sios-sir020121.php. 
  9. "JSPS Core-to-Core Program Project on Mixed Anion Research for Energy Conversion" (in ja). https://kageyama-c2c.ehcc.kyoto-u.ac.jp/en/. 
  10. "JACS:MOF complete screening of single and double branched isomers of alkanes at the Hoffmann Institute for Advanced Materials, Shenzhen Polytechnic". https://www.scimall.org.cn/article/detail?id=1111765. 
  11. Liu, Xiao-Yuan; Xing, Kai; Li, Yang; Tsung, Chia-Kuang; Li, Jing (2019-09-18). "Three Models To Encapsulate Multicomponent Dyes into Nanocrystal Pores: A New Strategy for Generating High-Quality White Light". Journal of the American Chemical Society 141 (37): 14807–14813. doi:10.1021/jacs.9b07236. ISSN 0002-7863. PMID 31424923. https://doi.org/10.1021/jacs.9b07236. 
  12. Hu, Hanlin; Qin, Minchao; Fong, Patrick W. K.; Ren, Zhiwei; Wan, Xuejuan; Singh, Mriganka; Su, Chun-Jen; Jeng, U.-Ser et al. (2021). "Perovskite Quantum Wells Formation Mechanism for Stable Efficient Perovskite Photovoltaics—A Real-Time Phase-Transition Study" (in en). Advanced Materials 33 (7): 2006238. doi:10.1002/adma.202006238. ISSN 1521-4095. PMID 33373068. https://onlinelibrary.wiley.com/doi/abs/10.1002/adma.202006238. 
  13. Liang, Jun; Nuhnen, Alexander; Millan, Simon; Breitzke, Hergen; Gvilava, Vasily; Buntkowsky, Gerd; Janiak, Christoph (2020). "Encapsulation of a Porous Organic Cage into the Pores of a Metal–Organic Framework for Enhanced CO2 Separation" (in en). Angewandte Chemie International Edition 59 (15): 6068–6073. doi:10.1002/anie.201916002. ISSN 1521-3773. PMID 31912916. 
  14. Yu, Liang; Dong, Xinglong; Gong, Qihan; Acharya, Shree Ram; Lin, Yuhan; Wang, Hao; Han, Yu; Thonhauser, Timo et al. (2020-04-15). "Splitting Mono- and Dibranched Alkane Isomers by a Robust Aluminum-Based Metal–Organic Framework Material with Optimal Pore Dimensions". Journal of the American Chemical Society 142 (15): 6925–6929. doi:10.1021/jacs.0c01769. ISSN 0002-7863. PMID 32223142. https://doi.org/10.1021/jacs.0c01769. 
  15. Wang, Hao; Warren, Mark; Jagiello, Jacek; Jensen, Stephanie; Ghose, Sanjit K.; Tan, Kui; Yu, Liang; Emge, Thomas J. et al. (2020-11-25). "Crystallizing Atomic Xenon in a Flexible MOF to Probe and Understand Its Temperature-Dependent Breathing Behavior and Unusual Gas Adsorption Phenomenon". Journal of the American Chemical Society 142 (47): 20088–20097. doi:10.1021/jacs.0c09475. ISSN 0002-7863. PMID 33172264. https://doi.org/10.1021/jacs.0c09475. 
  16. Liang, Jun; Xing, Shanghua; Brandt, Philipp; Nuhnen, Alexander; Schlüsener, Carsten; Sun, Yangyang; Janiak, Christoph (2020-10-06). "A chemically stable cucurbit[6uril-based hydrogen-bonded organic framework for potential SO2/CO2 separation"] (in en). Journal of Materials Chemistry A 8 (38): 19799–19804. doi:10.1039/D0TA07457H. ISSN 2050-7496. https://pubs.rsc.org/en/content/articlelanding/2020/ta/d0ta07457h. 
  17. Luo, Dongbao; Qiao, Xianji; Dronskowski, Richard (2021). "Predicting Nitrogen-Based Families of Compounds: Transition-Metal Guanidinates TCN3 (T=V, Nb, Ta) and Ortho-Nitrido Carbonates T′2CN4 (T′=Ti, Zr, Hf)" (in en). Angewandte Chemie International Edition 60 (1): 486–492. doi:10.1002/anie.202011196. ISSN 1521-3773. PMID 33001558. 
  18. Liang, Jun; Gvilava, Vasily; Jansen, Christian; Öztürk, Secil; Spieß, Alex; Lin, Jingxiang; Xing, Shanghua; Sun, Yangyang et al. (2021). "Cucurbituril−Encapsulating Metal−Organic Framework via Mechanochemistry: Adsorbents with Enhanced Performance" (in en). Angewandte Chemie International Edition 60 (28): 15365–15370. doi:10.1002/anie.202100675. ISSN 1521-3773. PMID 33974329. 
  19. Luo, Dongbao; Yin, Ketao; Dronskowski, Richard (2022-03-23). "Existence of BeCN2 and Its First-Principles Phase Diagram: Be and C Introducing Structural Diversity". Journal of the American Chemical Society 144 (11): 5155–5162. doi:10.1021/jacs.2c00592. ISSN 0002-7863. PMID 35285235. https://doi.org/10.1021/jacs.2c00592. 
  20. "JACS is so mighty. Who is JACS?". https://baijiahao.baidu.com/s?id=1710294747795277208. 
  21. "Small but great". https://new.qq.com/omn/20220309/20220309A0CHPW00.html. 

External links




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