报告题目：Next Generation Multi-Functional Nano-Science on Advanced Metal Complexes

报告人：Professor Masahiro Yamashita (Tohoku University, Japan)

报告摘要：Professor Yamashita's research target has been “Next Generation Multifunctional Nano-Sciences on Advanced Metal Complexes”. His work encompasses four important key areas: (1) inorganic-organic hybrid electronic states, (2) nano-size and nano-space, (3) bottom-up and self-assembly, and (4) nonlinearity and quantum effects. Among them, nonlinearity and quantum effects are the most important for nano-sciences on advanced metal complexes. He has been working on these two topics (nonlinearity and quantum effects) at the same time for more than 40 years. He will give the 7 lectures on these topics in the special lectures.

报告人简介：

Professor M. Yamashita, Emeritus Professor of Tohoku University

Education/Careers;

1982         Kyushu University (PhD)

1982      JSPS Post Doctor of Institute for Molecular Science

1983      Assistant Professor of Kyushu University

1987      Associate Professor of Nagoya University

1989-1990 Visiting Professor of University College London (UK)

1998      Professor of Nagoya University

1999      Professor of Tokyo Metropolitan University

2004-     Professor of Tohoku University

2016-     Lecture Professor of Nankai University (China)

2020-     Emeritus Professor of Tohoku University

Awards & Distinctions:

2002           Inoue Scientific Award

2005           The Chemical Society of Japan Award for Creative Work for 2005

2006           Best Paper Award in J. Phys. Soc. Jpn.

2009     Associate Member of Science Council of Japan

2011     Award for International Conference Attraction (JNTO)

2013     Fellow of Royal Society of Chemistry (FRSC)

2014     Award of Japan Society of Coordination Chemistry

2019     Mukai Award

2019     Honorable Doctorate from University of Ss. Cyril and Methodius (Slovakia)

2019     The Chemical Society of Japan Award for 2019

2022     MOE Changjiang Chair Professorship (China)

Publications:

Original Paper: 500,    Review: 100,    Books; 20

腾讯会议ID: 9号上午：Meeting No. 387-692-917

            9号下午：Meeting No. 303-500-795

            10号上午：Meeting No. 514-405-837

            10号下午：Meeting No. 239-690-411

线下会议室：北区化机三号楼215会议室

报告时间：2022年4月9-10号 (周六，周日)

9号：报告(1) 9.00 am-10.00 am (Meeting No. 387-692-917); 报告(2) 10.30 am -11.30 am (Meeting No. 387-692-917); 报告(3) 14.30 pm – 15.30 pm (Meeting No. 303-500-795); 报告(4) 16.00 pm – 17.00 pm (Meeting No. 303-500-795)

10号：报告(5) 9.00 am -10.00 am (Meeting No. 514-405-837)；报告(6) 10.30 am -11.30 am (Meeting No. 514-405-837)；报告(7) 14.30 pm – 15.30 pm(Meeting No. 239-690-411)

主持人：蒋尚达

Lecture (1):

“What is Science ? What is Nano-Science ?”

Professor Yamashita will give the lecture on what science is ?, and what nano-science is ?. These topics will include the history of nano-molecular magnets as well as the meaning of the science. Moreover, he will talk about the importance of the quantum effect and nonlinearity based on the nano-size from 1 to 100 nm. Finally, he will show that science should create the new research fields.

Lecture (2):

“Molecular Spin Qubits for Quantum Computer and Highly Density Memory Devices Based on Molecular Magnets”

     First, Professor Yamashita will give the talk about the molecular spin qubits for quantum computer from the viewpoints of three approaches such as [1] Crystal engineering method, [2] g-Tensor engineering method, and [3] Orbital engineering method. Next, he will give the talk about the single-molecule memory device, the metallic conducting single-molecule magnets (SMMs) with the negative magnetoresistance, the SMMs encapsulated in single-walled carbon nanotube (SWCNT) with the negative magnetoresistance and Coulomb blockade, and photo-switchable SMMs.

Lecture (3):

“Single-Chain Magnets (1D) and Nano-Dot Network Magnets (2D)”

     In this lecture, Professor Yamashita will focus on the dimensionality effects on SMMs (0D). The single-chain magnets (SCMs) (1D) are usually made by bridging SMMs with the bridging molecules. He will explain the effects of both the SMMs and the bridging molecules on the SCMs properties. Next, he will focus on the nano-dot network magnets (2D) and talk whether they show SCMs (1D) or the classical bulk magnets (3D).

Lecture (4):

“Kondo Effects on Single-Molecule Magnets”

     More than 50 years ago, Professor Kondo predicted that if the metallic materials include the small amount of the magnetic impurities, the metallic behaviors change to insulators by the combination of the conducting electron and localized magnetic impurity spin. From the beginning of the discovery of SMMs, most researchers noticed that SMMs should show Kondo Effects. However, nobody knew how to detect Kondo effects on SMMs. Professor Yamashita will talk the discovery of Kondo effects on SMMs by Scanning Tunneling Microscopy (STM) and their properties.

Lecture (5):

“Conducting Single-Molecule Magnets”

     Professor Yamashita discovered the conducting SMMs more than 10 years ago. However, the compounds did not show the negative magnetoresistance due to no interaction between the semiconducting electron and localized SMMs. However, more recently, he has discovered the metallic SMMs with the negative magnetoresistance for the first time. He will talk about the history and strategy of the conducting SMMs.

Lecture (6):

“Nano-Wire Pd(III) Mott-Insulators with Strong Electron-Correlation”

     Quasi-one-dimensional halogen-bridged metal complexes (MX-Chains) show the very interesting physical properties such as non-linear optical properties. Professor Yamashita has succeeded to synthesized Pd(III) Mott-Insulators for the first time according to the following strategies; [1] Shortening the Pd-Pd distance with counteranions with the long alkyl-chains (Chemical pressure methods), [2] Ni-Pd alloy method, [3] Weaker ligand field with cyclopentanediamine ligand, and [4] Multiple-hydrogen bonds methods. He will show the physical properties of these Pd(III) compounds such as their phase transitions, charge fluctuations, and charge separations.

Lecture (7):

“Nano-Wire Ni(III) Mott-Insulators and MMX-Chain Compounds”

     Professor Yamashita will give the talk about the gigantic third-order optical non-linearity as well as the electron- and hole-doping in Ni(III) Mott-Insulators with strong electron correlation. Next, he will talk about the Pt-Pt-X chain compounds with photo-switchable phase transitions.

化学与化工学院

2022年4月7日