Page 76

Volume 4

December 10-12, 2018

Rome, Italy

Nano Research & Applications

ISSN: 2471-9838

Advanced Materials 2018

Nano Engineering 2018

JOINT EVENT

22

nd

International Conference on

Advanced Materials

and Simulation

&

22

nd

Edition of International Conference on

Nano Engineering &

Technology

S

ynergy between physics, material sciences and biotechnology

during last decade has led to a tremendous scientific progress

in the fields of bio detection and nanomedicine. This tight

interaction led to the emergence of a new class of bioinspired

systems that enables to bring the area of biosensorics e.g., for

cell or molecular diagnostics and analytics to the new level. The

advances are expected in terms of possibility for early diagnostics

of diseases due to the increased sensitivity of the detectors; real

time and high through put analysis offered by combination of

integrated electronics andmicrofluidic approach and establishing

the new functional formats for the bioassays. Most promising

candidates for the future diagnostics are the electronic nano

biosensors that have attracted great attention in the last decades

since they provide rich quantitative information for medical and

biotechnological assays without pre-treatment and specific

optical labelling of the detected species. One dimensional nano

structures in particular semiconductor and metallic nano wires

have attracted attention as highly efficient sensor elements

due to their high surface-to-volume ratio, which simplifies the

detection of biochemical species down to single molecules. The

simultaneous detection of multiple targets within a single chip on

a point of care device is amilestone drawing great attentionwithin

bio and nanotechnology areas for more than a decade. Here, we

demonstrate a multiplexed, label free and real time detection

platform for small molecules like hormones, DNA sequence or

pathogenic proteins. The nanowires based devices offer noise

reduced, versatile and reliable electrical characteristics with high

on/off ratios upto 106. A sensitive and selective binding of the

targets onto the SiNW-FETs can be realized by using aptamers/

antibodies, etc., as receptors in order to allow high sensitive

screenings in physiological conditions.

g.cuniberti@tu-dresden.de

Gianaurelio Cuniberti

1, 2, 3, 4

and

Stephanie Klinghammer

1

Bergoi Ibarlucea

1, 2, 3

Lot-

ta Roemhildt

1

Felix Zoergiebel

1, 2, 3

Sebastian Pregl

1, 2, 3

and

Larysa Baraban

1, 2, 3

1

Max Bergmann Center of Biomaterials Dresden, Germany

2

Institute for Materials Science Tu Dresden, Germany

3

Center for Advanced Electronics Dresden, Germany

4

Dresden Center for Computational Materials Science (DCMS), Germany

Nano Res Appl 2018, Volume 4

DOI: 10.21767/2471-9838-C7-028

Lab on a wire: application of silicon

nanowires for nanoscience and

biotechnology