Career experiences

Prof. ZHAO Lili was born in Changge, Henan Province of China in 1984. In 2003,sheenrolled at Henan University, and became undergraduate atthe College of Chemistry and Chemical Engineering majoring in chemistry.She received bachelor degree (in Chemistry) from Henan University in July 2007, and thenbecame a formal graduate student in the University of Chinese Academy of Sciences (GUCAS) in September 2007, majored in Physical Chemistry/Computational Chemistry. She was promoted as a PhD student in 2009, and received her PhD degree in July of 2012. After that, she joined immediately in the institute of high performance computing (IHPC) department of A*star in Singapore in August 2012, where she spent two years doing some basic research project and industry project. During September 2014 ~ October 2016, she was supported by theAlexander von Humboldtfellowship, and work as postdoc in Prof. Gernot Frenking’s group at Marburg University, Germany.

In November 2016, Prof. ZHAO settled as a professor in the Institute of advanced synthesis (IAS), School of Chemistry and Molecular Engineering, Nanjing Tech University.In 2019, he was appointed as "Distinguished Professor of Jiangsu Province". In 2020, she got the third prize of the 17th Young Teacher Award of Higher Education Institutions by Fok Yingdong Education Foundation. During the last five years, she was supported by the National Natural Science Foundation Youth Program and General Program, Jiangsu Natural Science Foundation Youth Program and Excellent Youth Program, Jiangsu Distinguished Professor Fund Program, etc.She teaches courses “Physical Chemistry” for the undergraduate students and“Quantum Chemistry” for the graduate students.Since 2017, more than 80 papers were published in scientific journals, including Science,Nature Chem.,J. Am. Chem. Soc.,Angew. Chem., Int. Ed.,Nature Commun.,ACS Catal.,Chem. Sci.,Chem. Rev.,Nature Rev. Chem.etc.

Exploring the chemistry with computers

As early as 1921, Langmuir proposed the well-known 2, 8, 18, and 32electron rules, to understand the structures and stabilities of molecules. Generally, the octet rule for S, P blockinthe periodic table of elements, the 18-electron rule for d block, and 32-electron rule for f block. The electron rules are the useful guideline to understand the chemical behaviour of the elements. Alkaline earth (AE) elements are a typical main-group atoms, normally obey the Octet electron rule. However, Prof. Zhao found that Ba severesas honorary transition metal inBa(CO)⁺(Angew. Chem., Int. Ed.2018,57, 3974-3980), which uses its5d electrons in chemical bonding formation.Later,herexperimental collaborators observed the satble AE(CO)₈comlex at the low-temperature matrix.EDA-NOCV analysis revealed that the AE-CO bonding comes mainly from the[AE(d_π)]→(CO)₈π-backdonation, which explains the large red-shift of the C-O stretching mode. Prof. Zhao and her collaborators further proposed thattheAlkaline earth elements (e.g., Ca,Sr,Ba) canobey the 18-electron rule as shown inFigure (a) as below(Science.2018,361, 912-916.), which challenged previous notions of limitations in the 18-electron rule and provides complexes exhibiting very interesting bonding motifs in the process.

Prof. Zhao’s team also designed othernovel molecules with unusual chemical bonding nature. For example,they designed andisolated a more stable and naked C₂molecule as L→C₂using bulky phosphine ligand bearing two imidazolidin-2-iminato groups (L is (NHC^R=N)₂(CH₃)P) (Nature Chemistry2021,13,89-93.). EDA-NOCV analysis indicated that P–C_αbond has fragments of C2^-and the phosphine⁺ligand lied toward behaving more like resonance Figure (b) as below. They recently reportedthe first crystalline heavier carbyne radical analogue(Nature Chemistry2022,DOI:doi.org/10.1038/s41557-022-01081-1.) the germylyne radical M^sFluind^*-(Figure (c) below), which bears an essentially one-coordinate germanium atom. Our study revealed that the germylyne radical features a doublet ground state, and the three non-bonding valence electrons at the germanium atom.