Dan’s Biz Bookshelf: ‘Dream First, Details Later
Happy’s Tech Talk #40: Factors in PTH Reliability—Hole Voids
Facing the Future: Time for Real Talk, Early and Often, Between Design and Fabrication
Blooming Microflowers Open New Electronic Frontiers
October 5, 2015 | RMIT UniversityEstimated reading time: 1 minute
Researchers at RMIT University in Melbourne, Australia, have developed artificial microflowers that self-assemble in water and mimic the natural blooming process, an important step for advances in frontier-edge electronics.
Flower-shaped structures have been the focus of research because their distinctive surfaces offer exciting potential for applications in a range of fields -- from optoelectronics and chemosensors to nanotechnology, biotechnology, biomedicine and organic electronics.
The team from the RMIT-Indian Institute of Chemical Technology Research Centre has for the first time developed microstructures shaped like flowers that build through self-repeating arrangement in water.
Lead investigator Dr Sheshanath Boshanale said the field of organic flower-shaped morphology was still in its infancy.
"This is the first time flower-shaped microforms have been developed in a water solution, opening an exciting new pathway for further research," he said.
"The artificial blooms developed by our team are just 10 microns wide -- about 10 could fit along the width of a strand of human hair.
"While tiny, they have potential to make a big impact by enabling researchers to easily and reliably build microflowers and use them to break frontiers in a range of scientific fields."
To create the microflowers, researchers mixed two organic components (NDI-bearing phosphonic acid and melamine) in water, which is then evaporated. The artificial microflowers take about three hours to fully develop, mimicking the way natural flowers bloom.
The research has been published in Scientific Reports, an open-access journal from the publishers of Nature.
Share on:
Suggested Items
Bell to Build X-Plane for Phase 2 of DARPA Speed and Runway Independent Technologies (SPRINT) X-Plane Program
07/09/2025 | Bell Textron Inc.Bell Textron Inc., a Textron Inc. company, has been down-selected for Phase 2 of Defense Advanced Research Projects Agency (DARPA) Speed and Runway Independent Technologies (SPRINT) X-Plane program with the objective to complete design, construction, ground testing and certification of an X-plane demonstrator.
Nolan’s Notes: Moving Forward With Confidence
06/03/2025 | Nolan Johnson -- Column: Nolan's NotesWe’re currently enjoying a revitalized and dynamic EMS provider market with significant growth potential. Since December 2024, the book-to-bill has been extremely strong and growing. Starting with a ratio of 1.24 in December, book-to-bill has continued to accelerate to a 1.41 in April. Yet, there is a global economic restructuring taking place. To say that the back-and-forth with tariffs and trade deals makes for an uncertain market is an understatement. While we may be in a 90-day tariff pause among leading economic nations, the deadline is quickly approaching and that leaves many of you feeling unsettled about what to expect.
Mycronic High Flex Changes Division Name to PCB Assembly Solutions
05/20/2025 | MycronicMycronic AB, the leading Sweden-based electronics assembly solutions provider, announced that its division formerly known as High Flex will now operate under the name PCB Assembly Solutions.
SolderKing Achieves the Prestigious King’s Award for Enterprise in International Trade
05/06/2025 | SolderKingSolderKing Assembly Materials Ltd, a leading British manufacturer of high-performance soldering materials and consumables, has been honoured with a King’s Award for Enterprise, one of the UK’s most respected business honours.
Foxconn's Tiger Leap Combining Nature and Technology in Ecological Roof Garden
04/23/2025 | FoxconnHon Hai Technology Group, the world's largest technology manufacturing and service provider, has actively responded to the United Nations Sustainable Development Goals (SDGs).