Journal of Organic & Inorganic Chemistry

ISSN: 2472-1123

August 27-28, 2018

Zurich, Switzerland

Chemistry Education 2018

Page 34

8

th

Edition of International Conference on

Chemistry Education

and Research

I

n the past, our researches focus on a multiscale/ hierarchical

chemistry of organic devices suffering from a ten-year journey

in the molecular world starting from the synthesis of fluorene via

supramolecular approaches to intermolecular motifs, nanoscale

aggregate, mesoscale orientation film as well as multilayered

heterojunction in order to solve the technology bottleneck in

organic/ plastic electronics. Although we developed the organic

wide-bandgap semiconductors that cannot be comparable

with inorganic performance, a whole node-network and

systematic picture of the diverse and multiscale chemical world

has been impressed that results in the belief of self-similar

epistemology where microscopically molecular worlds could

not be mysterious that just resemble human scale society ever

since. Our target is to clone all the MEIC aspects of macroscopic

worlds at molecular scale that is the effective pathway to

activate molecular intelligence and consciousness. Herein, we

start from the human-scale window grids as a typical static

paradigm that you can see everywhere and that are around you in

daily life. Chinese ancient window grids are especially aesthetic

besides usefulness for life ever that also record and impress the

traditional culture and philosophy of Fang Yuan. They inspired us

differentiating from the well-known macrocycles and exploring

the unprecedented nano-grid[n]arenes that include a huge family

of various unit nanogrids, digrids, multigrids and polygrids via

a bottom-up molecular installing nanotechnology (MINT). This

kind of hierarchical nano-gridarenes and their nanopolymers will

be a diverse platform of covalently multiscale and cross-scale

meta-molecules that would be advanced nanomaterials with

multiscale precision to face the challenge of plastic electronics

andorgano-robots in the backgroundof the era of consciousness

(EOC) from carbon to robot.

Biography

Linghai Xie has completed his PhD in Macromolecular Chemistry and Physics

by Fudan University in 2006 and Senior Visiting Scholar studies at Nanyang

Technological University (NTU) during 2012-2013. He won the NSFC Award

for Excellent Young Scholar in 2013. He has worked as Professor of Organic

Hierarchical Chemistry at Nanjing University of Posts & Telecommunications.

He serves as a Director of the Center for Molecular Systems & Organic Devices

at the Institute of Advanced Materials. His research contributions include one-

pot protocol to spirofluorenes (especially spirofluorenexanthene, SFX), Syner-

gistically Molecular Attractor-Repulsor Theory (SMART), nano-grid[n]arenes

and molecular multimedia. He has published more than 180 papers in reputed

journals and has been cited by more than 2900.

iamlhxie@njupt.edu.cn

Organic nanosynthesis of macroscopic

window grids at molecular scale

Linghai Xie

Nanjing University of Posts & Telecommunications, China

Linghai Xie, J Org Inorg Chem 2018, Volume 4

DOI: 10.21767/2472-1123-C5-013