Nanotechnology Now





Heifer International

Wikipedia Affiliate Button


DHgate

Home > Press > E-Hong Instruments Will Serve as NanoInk's New Distributor in Taiwan: E-Hong Instruments Co., Ltd. to market NanoInk’s NLP 2000 System, DPN 5000 System, and MEMs-fabricated consumables

Abstract:
The NanoFabrication Systems Division of NanoInk is pleased to announce E-Hong Instruments Co., Ltd. will serve as its distributor in Taiwan for its desktop nanofabrication equipment including the NLP 2000 System, the DPN 5000 System, and MEMs-fabricated consumables. NanoInk's NanoFabrication Systems Division brings sophisticated nanofabrication to the laboratory in an easy-to-use and affordable platform. E-Hong will add NanoInk to its line of high-precision scientific instruments from around the world for distribution in Taiwan.

E-Hong Instruments Will Serve as NanoInk's New Distributor in Taiwan: E-Hong Instruments Co., Ltd. to market NanoInk’s NLP 2000 System, DPN 5000 System, and MEMs-fabricated consumables

Chicago, IL | Posted on October 23rd, 2012

"We are delighted to be appointed as the distributor for NanoInk's products in Taiwan," said Kuo-Hsuan Chen, Vice-General Manager at E-Hong. "NanoInk's products complement our current portfolio and are attractive for our targeted materials and life science market."

"E-Hong has been in the high-tech scientific instrument business for more than 35 years and is already well-connected to our target customers in Taiwan," said Oliver Yeh, General Manager, NanoInk's NanoFabrication Systems Division, Asia-Pacific region. "Its sales and technical teams have the in-depth knowledge required to understand the scientific instrument market and it has proven expertise in selling technically sophisticated equipment. With these strengths, E-Hong is the ideal partner for driving sales growth of NanoInk's unique nanofabrication systems in Taiwan."

NanoInk's NLP 2000 System is a desktop instrument that allows researchers to rapidly design and create custom engineered and functionalized surfaces by using Dip Pen NanolithographyŇ (DPNŇ) to transfer minute amounts of materials over a large, environmentally controlled work area. With the ability to create custom patterns of nano-to-microscale features in under an hour, the NLP 2000 System is valuable for protein and biomolecular patterning, microstructure and biosensor functionalization, cell biology and polymer printing applications.


The DPN 5000 System is a full-featured, dedicated instrument for versatile nanopatterning of a variety of materials with nanoscale accuracy and precision. With its user-friendly interface, it is possible to easily design complex patterns while also precisely controlling tip movements during the writing process. The DPN 5000 System is the ideal platform for nanofabrication, nanomaterials and biomaterials applications that exhibit nanoscale printing, imaging and registration requirements.

With a state-of-the-art MEMS manufacturing facility and an experienced MEMS engineering team, NanoInk offers the highest-quality components for use with Dip Pen Nanolithography instrument systems. MEMs-fabricated consumables include single pen tips and multiple pen tip arrays optimized for specific types of DPN deposition work, DPN Substrates marked with addressable location labels, DPN Inkwell arrays designed to deliver print materials to one or several DPN pen tips, and DPN Printing Kits.

E-Hong Instruments Co., Ltd. is a privately held company with offices in the Taipei, Hsinchu, Taichung, Tainan, and Kaohsiung regions of Taiwan. The company offers expertise in SEM, TEM, FIB, and analytical instruments and analysis. E-Hong has been supplying solutions to the material science, semiconductor, life science, and industrial markets since 1976. More information on E-Hong is available at: www.ehong.com.tw/.

To obtain more information or to place an order through E-Hong for NanoInk's desktop nanofabrication systems, please email Kuo-Hsuan Chen at

For information on additional NanoInk distributors, visit: www.nanoink.net/distributors.html. More detail about the NanoFabrication Systems Division of NanoInk is available at: www.nanoink.net/divisions.html#NanoFabrication. You can also follow NanoInk on Twitter at www.twitter.com/NanoInk, Facebook at www.facebook.com/nanoink.net, Google+ at www.gplus.to/nanoink, YouTube at www.youtube.com/user/nanoINKtv, and LinkedIn at www.linkedin.com/groups/Nano-Micro-Lithography-3791030/about?trk=anet_ug_grppro.

####

About NanoInk
NanoInk, Inc. is an emerging growth technology company specializing in nanometer-scale manufacturing and applications development for the life sciences, engineering, pharmaceutical, and education industries. Using Dip Pen Nanolithography® (DPN®), a patented and proprietary nanofabrication technology, scientists are enabled to rapidly and easily create micro-and nanoscale structures from a variety of materials on a range of substrates. This low cost, easy to use and scalable technique brings sophisticated nanofabrication to the laboratory desktop. Headquartered in the Illinois Science + Technology Park, north of Chicago, NanoInk currently has several divisions including the NanoFabrication Systems Division, the Nano BioDiscovery Division, the NanoProfessor™ Division and the NanoGuardian™ Division. For more information on products and services offered by NanoInk, Inc., visit www.nanoink.net.

NanoInk, the NanoInk logo, Dip Pen Nanolithography, DPN, and NanoProfessor are registered trademarks of NanoInk, Inc.

For more information, please click here

Contacts:
Joshua Taustein
Associate
Dresner Corporate Services
20 N. Clark St. Suite 3550
Chicago, IL 60602
Direct: (312)780-7219
Mobile: (847)308-5168
www.dresnerpr.com

Copyright © NanoInk, Inc.

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Bookmark:
Delicious Digg Newsvine Google Yahoo Reddit Magnoliacom Furl Facebook

Related News Press

News and information

Researchers find the 'key' to quantum network solution May 25th, 2015

One step closer to a single-molecule device: Columbia Engineering researchers first to create a single-molecule diode -- the ultimate in miniaturization for electronic devices -- with potential for real-world applications May 25th, 2015

DNA Double Helix Does Double Duty in Assembling Arrays of Nanoparticles: Synthetic pieces of biological molecule form framework and glue for making nanoparticle clusters and arrays May 25th, 2015

Engineering Phase Changes in Nanoparticle Arrays: Scientists alter attractive and repulsive forces between DNA-linked particles to make dynamic, phase-shifting forms of nanomaterials May 25th, 2015

MEMS

Janusz Bryzek Joins MEMS Industry Group to Lead New TSensors Division - New Division will Focus on Accelerating Development of Emerging Ultra-high Volume Sensors Supporting Abundance, mHealth and IoT May 14th, 2015

Phonons, arise! Small electric voltage alters conductivity in key materials April 22nd, 2015

Iranian Scientists Evaluate Dynamic Interaction between 2 Carbon Nanotubes April 14th, 2015

ASIC Development for MEMS Applications: A Platform Approach March 25th, 2015

Announcements

Researchers find the 'key' to quantum network solution May 25th, 2015

One step closer to a single-molecule device: Columbia Engineering researchers first to create a single-molecule diode -- the ultimate in miniaturization for electronic devices -- with potential for real-world applications May 25th, 2015

DNA Double Helix Does Double Duty in Assembling Arrays of Nanoparticles: Synthetic pieces of biological molecule form framework and glue for making nanoparticle clusters and arrays May 25th, 2015

Engineering Phase Changes in Nanoparticle Arrays: Scientists alter attractive and repulsive forces between DNA-linked particles to make dynamic, phase-shifting forms of nanomaterials May 25th, 2015

Tools

This Slinky lookalike 'hyperlens' helps us see tiny objects: The photonics advancement could improve early cancer detection, nanoelectronics manufacturing and scientists' ability to observe single molecules May 23rd, 2015

Nanometrics Announces Live Webcast of Upcoming Investor and Analyst Day May 20th, 2015

Taking control of light emission: Researchers find a way of tuning light waves by pairing 2 exotic 2-D materials May 20th, 2015

DELMIC announces a workshop hosted by Phenom World on Integrated CLEM to be held on Wednesday June 24th at the Francis Crick Institute (Lincoln Inn Fields Laboratory). May 19th, 2015

Alliances/Partnerships/Distributorships

Samtec, Global Provider of Interconnect Systems, Joins IRT Nanoelec Silicon Photonics Program May 21st, 2015

SUNY Poly CNSE and NIOSH Launch Federal Nano Health and Safety Consortium: May 20th, 2015

Industrial Nanotech, Inc. Announces Official Launch of the Eagle Platinum Tile™ May 19th, 2015

DiATOME enables surface preparation for AFM and FIB May 19th, 2015

Printing/Lithography/Inkjet/Inks

This Slinky lookalike 'hyperlens' helps us see tiny objects: The photonics advancement could improve early cancer detection, nanoelectronics manufacturing and scientists' ability to observe single molecules May 23rd, 2015

Printing 3-D graphene structures for tissue engineering: A new ink formulation allows for the 3-D printing of graphene structures May 19th, 2015

ORNL demonstrates first large-scale graphene fabrication May 14th, 2015

New JEOL E-Beam Lithography System to Enhance Quantum NanoFab Capabilities May 6th, 2015

NanoNews-Digest
The latest news from around the world, FREE




  Premium Products
NanoNews-Custom
Only the news you want to read!
 Learn More
NanoTech-Transfer
University Technology Transfer & Patents
 Learn More
NanoStrategies
Full-service, expert consulting
 Learn More










ASP
Nanotechnology Now Featured Books




NNN

The Hunger Project