Access the most recent editions of Ink World Magazine, featuring timely industry insights and innovations.
Read the interactive online version of Ink World Magazine, complete with enhanced features and multimedia content.
Join our global readership—subscribe to receive Ink World Magazine in print or digital formats, and stay informed on key trends and breakthroughs.
Connect with decision-makers in the ink industry through strategic advertising opportunities in Ink World Magazine and online platforms.
Review submission standards and guidelines for contributing articles and content to Ink World Magazine.
Understand how we collect, use, and protect your data when you engage with Ink World Magazine.
Review the legal terms governing your use of Ink World Magazines website and services.
Stay current with breaking developments, business updates, and product launches across the global ink industry.
Explore in-depth articles covering key technologies, trends, and challenges facing ink manufacturers and suppliers.
Access exclusive interviews, behind-the-scenes stories, and original reporting not found anywhere else.
A one-on-one interview conducted by our editorial team with industry leaders in our market.
Gain insight from industry thought leaders as they share analysis on market shifts, regulatory changes, and technological advances.
Review market data, forecasts, and trends shaping the ink and printing sectors worldwide.
Visualize data and industry insights through engaging infographics that highlight key stats and trends.
Browse photo galleries showcasing events, product innovations, and company highlights.
Watch interviews, demonstrations, and event coverage from across the ink and printing value chain.
Short, impactful videos offering quick updates and insights on industry topics.
Stay updated on trends and technologies in pigment development.
Learn how additives influence ink performance and characteristics.
Discover advancements in resin technologies and their impact on ink properties.
Explore the latest printing and manufacturing equipment used across various ink applications.
Explore UV, EB, and other curing technologies that improve ink efficiency and sustainability.
Discover tools used in R&D and quality control processes.
Focused on inks used in labels, flexible packaging, and cartons.
Coverage on inks for newspapers, magazines, and books.
Insights into inkjet, toner, and other digital printing solutions.
Updates on offset sheetfed inks used in commercial printing.
News on UV and EB curing inks.
Explore screen printing ink technologies.
Niche and high-performance ink formulations for specific applications.
Electrically conductive inks for electronics and printed sensors.
Innovations in printable electronic components.
Developments in printed OLEDs, LEDs, and display technologies.
Printed solar cells and materials used in energy generation.
Explore electronics printed directly into molded surfaces.
Advances in smart tagging and communication technologies.
Global leaders across Europe, Asia, and beyond.
Major ink producers in the U.S., Canada, and Mexico.
Source suppliers and service providers across the ink value chain.
Locate authorized distributors of ink and raw materials.
Browse manufacturers and vendors offering inks, equipment, and materials.
A listing of ink manufacturers based in the United States.
Directory of ink producers across Europe.
Detailed insights into products, processes, and innovations from leading ink companies.
Find definitions for common terms used throughout the ink and printing industries.
Comprehensive digital guides on specific ink technologies and markets.
Research-driven reports offering analysis and solutions to industry challenges.
Marketing materials from suppliers showcasing products and services.
Company-sponsored articles offering expert insight, case studies, and product highlights.
Company announcements, product launches, and corporate updates.
Browse job openings in the ink and coatings industries and connect with potential employers.
Calendar of major trade shows and professional gatherings.
On-site event coverage and updates.
Virtual sessions led by industry experts.
What are you searching for?
“This is a big step in the correct direction,” said Kai Zhu, a senior scientist in the Chemistry and Nanoscience Center at NREL.
February 20, 2020
By: Anthony Locicero
Copy editor, New York Post
Researchers at the National Renewable Energy Laboratory (NREL) and Northern Illinois University (NIU) have developed a technique to sequester the lead used to make perovskite solar cells, a highly efficient emerging photovoltaic technology. The light-absorbing layer in a perovskite solar cell contains a minute amount of lead. The presence of this toxic material in the developing technology could turn some consumers away when perovskite solar cells become commercially available, said Kai Zhu, a senior scientist in the Chemistry and Nanoscience Center at NREL. Zhu and other researchers at NREL and NIU outlined their solution in a paper newly published in Nature, titled “On-Device Lead Sequestration for Perovskite Solar Cells.” “This is a big step in the correct direction,” Zhu said. His co-authors are Fei Zhang and Joseph Berry of NREL, Haiying He of Valparaiso University, and Xun Li and Tao Xu from NIU. Xu served as the lead researcher from NIU. “Lead toxicity has been one of the most vexing, last-mile challenges facing perovskite solar cells,” Xu said. “Our on-device lead-sequestration method renders a ‘safety belt’ for this fascinating photovoltaic technology.” A lead-based perovskite solar cell’s highest efficiency – its ability to turn sunlight into electricity – runs close to 25%. Without the lead, that efficiency is cut in half. Silicon solar panels, the industry’s dominant technology, contain lead solder, but that lead is not water-soluble. The lead used in perovskites can be dissolved in water. While existing analyses show this is not a major concern, the researchers developed a method to ensure the lead is sequestered should a cell become damaged. They coated the front and back of a perovskite solar cell with two different lead-absorbing films. Then, they damaged the two sides of the cell—slashing one with a knife and smashing the other with a hammer. The researchers then immersed the damaged cells in water of various types, including pure water, acid water, and even flowing water to simulate heavy rain. They found that these lead-absorbing films can prevent more than 96% of lead from leaking into the water from the damaged cells. The addition of the lead-absorbing layers did not affect the performance of the solar cell, the researchers found.
Enter your account email.
A verification code was sent to your email, Enter the 6-digit code sent to your mail.
Didn't get the code? Check your spam folder or resend code
Set a new password for signing in and accessing your data.
Your Password has been Updated !
