Volume 5, Issue 3(Suppl)

Biochem Anal Biochem 2016

ISSN: 2161-1009, Biochem an open access journal

Page 37

Notes:

Biochemistry 2016

October 10-12, 2016

conferenceseries

.com

Biochemistry

October 10-12, 2016 Kuala Lumpur, Malaysia

International Conference on

Nano-porous three dimentional metal-organic frameworks with potential for drug delivery, selective gas

adsorption and heavy metal ion removal

Ali Morsali

and

Vahid Safarifard

Tarbiat Modares University, Iran

I

n the domain of health, one important challenge is the efficient delivery of drugs in the body using non-toxic nanocarriers. Up until

now, two routes have been set up: The “organic route”, which uses either biocompatible polymers and the “inorganic route”, in which

the hosts are inorganic porous solids, such as zeolites or mesoporous silicate materials. Most of the existing carrier materials show

poor drug loading and rapid release of the proportion of the drug that is simply adsorbed at the external surface of the nanocarrier.

Herein, we introduce a third way: Porous inorganic-organic hybrid solids. Metal-organic frameworks (MOFs) are a new class of

hybrid crystalline materials composed of organic linkers and metal nodes, with a diversity of structural characteristics and the nature

of the pore surface. These materials have unquestionably enormous potential for many practical structure-related applications. This

includes the more traditional areas of storage, separation or controlled release of gases, catalysis, sensing, and drug delivery. In this

regards, we would like to introduce our azine/amide-functinalized pillar-layered TMU MOFs (TMU = Tarbiat Modares University)

as potential drug delivery systems. For instance, the two 3D porous Zn(II)-based MOFs, containing azine-functionalized pores,

[Zn

2

(oba)

2

(4-bpdb)]·(DMF)

2

(TMU-4) and [Zn

2

(oba)

2

(4-bpdh)]·(DMF)

2

(TMU-5) have showed acceptable capture of CO

2

with CO

2

/

N

2

selectivities of ~25 at 298 K. Moreover, a new MOF, TMU-30, based on isonicotinate N-oxide as an adsorptive site has been used

for fast and highly efficient aqueous phase adsorption of Cr(VI) over a pH range of 2–9. Combination of high and regular porosity

with the presence of functionalized-organic groups within the TMUs can cumulate the advantages to achieve both a high drug

loading and a controlled release.

Biography

Ali Morsali received his BS (1995) and MS (1999) in Coordination Polymers from Kharazmi (Tarbiat Moallem) and Zanjan Universities respectively, and his PhD (2003) in

Inorganic Chemistry from Tarbiat Modares University under the supervision of Professor Alireza Mahjoub. He is currently a faculty member in the Department of Chemistry

of Tarbiat Modares University. He has been a Full Professor at the Tarbiat Modares University since 2011. His research interests include the solid-state reactivity involving

coordination polymers and rational design and synthesis of metal-organic frameworks and their application in clean energy field and gas storage.

morsali_a@modares.ac.ir

Ali Morsali et al., Biochem Anal Biochem 2016, 5:3(Suppl)

http://dx.doi.org/10.4172/2161-1009.S1.005