Polymer

IDTechEx Explores Technology Trends in Dielectric Materials for Next Generation 2.5D and 3D Semiconductor Packaging

Retrieved on: 
Wednesday, March 27, 2024
Temperature, Communication, Silicon dioxide, L/S, Polymer, Copper, CTE, Coefficient, CMP, TCB, Intermetallic, RDL, Miniaturization, Ecosystem, Young, Viscoelasticity, IMC, Printed circuit board

This article explores the technology trends in dielectric materials for both 2.5D and 3D packaging, with insights drawn from IDTechEx's market report on the topic, " Materials and Processing for Advanced Semiconductor Packaging 2024-2034 ".

Key Points: 
  • This article explores the technology trends in dielectric materials for both 2.5D and 3D packaging, with insights drawn from IDTechEx's market report on the topic, " Materials and Processing for Advanced Semiconductor Packaging 2024-2034 ".
  • However, traditional inorganic dielectric materials like SiO2, though capable of achieving fine L/S, suffer from high dielectric constants (Dk=3.9) and are tied to the Si manufacturing technique.
  • Organic dielectric materials emerge as promising alternatives for advanced semiconductor packaging, offering lower dielectric constants and cost advantages.
  • Finally, the report includes a 10-year market forecast for Organic Dielectric Advanced Semiconductor Packaging, providing industry perspectives on market growth and trends.

IDTechEx Explores Technology Trends in Dielectric Materials for Next Generation 2.5D and 3D Semiconductor Packaging

Retrieved on: 
Wednesday, March 27, 2024
Temperature, Communication, Silicon dioxide, L/S, Polymer, Copper, CTE, Coefficient, CMP, TCB, Intermetallic, RDL, Miniaturization, Ecosystem, Young, Viscoelasticity, IMC, Printed circuit board

This article explores the technology trends in dielectric materials for both 2.5D and 3D packaging, with insights drawn from IDTechEx's market report on the topic, " Materials and Processing for Advanced Semiconductor Packaging 2024-2034 ".

Key Points: 
  • This article explores the technology trends in dielectric materials for both 2.5D and 3D packaging, with insights drawn from IDTechEx's market report on the topic, " Materials and Processing for Advanced Semiconductor Packaging 2024-2034 ".
  • However, traditional inorganic dielectric materials like SiO2, though capable of achieving fine L/S, suffer from high dielectric constants (Dk=3.9) and are tied to the Si manufacturing technique.
  • Organic dielectric materials emerge as promising alternatives for advanced semiconductor packaging, offering lower dielectric constants and cost advantages.
  • Finally, the report includes a 10-year market forecast for Organic Dielectric Advanced Semiconductor Packaging, providing industry perspectives on market growth and trends.

CAS Announces 2024 Selections for Prestigious CAS Future Leaders™ Program

Retrieved on: 
Monday, March 25, 2024
Chemical Society, IIT Indore, Science, Harvard University, Polymer, Research, United States Army, CAS, United States Military Academy, ACS, Army, Management

COLUMBUS, Ohio, March 25, 2024 /PRNewswire/ -- CAS, a division of the American Chemical Society specializing in scientific knowledge management, is proud to announce the 2024 CAS Future Leaders. These exceptional early-career scientists were selected from a large pool of global candidates who applied for a spot in the program known as one of the best leadership learning experiences in the world of science.

Key Points: 
  • COLUMBUS, Ohio, March 25, 2024 /PRNewswire/ -- CAS, a division of the American Chemical Society specializing in scientific knowledge management, is proud to announce the 2024 CAS Future Leaders .
  • Participants in the program, which will take place in August, will also get a behind-the-scenes look into how CAS connects the world's science.
  • They will present their research at ACS Fall 2024 in Denver, Colorado, and receive a three-year ACS membership as well.
  • "I am thrilled to be selected for the 2024 CAS Future Leaders program alongside such an esteemed group of interdisciplinary scientists.

CAS Announces 2024 Selections for Prestigious CAS Future Leaders™ Program

Retrieved on: 
Monday, March 25, 2024
Chemical Society, IIT Indore, Science, Harvard University, Polymer, Research, United States Army, CAS, United States Military Academy, ACS, Army, Management

COLUMBUS, Ohio, March 25, 2024 /PRNewswire/ -- CAS, a division of the American Chemical Society specializing in scientific knowledge management, is proud to announce the 2024 CAS Future Leaders. These exceptional early-career scientists were selected from a large pool of global candidates who applied for a spot in the program known as one of the best leadership learning experiences in the world of science.

Key Points: 
  • COLUMBUS, Ohio, March 25, 2024 /PRNewswire/ -- CAS, a division of the American Chemical Society specializing in scientific knowledge management, is proud to announce the 2024 CAS Future Leaders .
  • Participants in the program, which will take place in August, will also get a behind-the-scenes look into how CAS connects the world's science.
  • They will present their research at ACS Fall 2024 in Denver, Colorado, and receive a three-year ACS membership as well.
  • "I am thrilled to be selected for the 2024 CAS Future Leaders program alongside such an esteemed group of interdisciplinary scientists.

Lightwave Logic Demonstrates World-Class 200Gbps Heterogeneous Polymer/Silicon Photonic Modulator Results

Retrieved on: 
Monday, March 25, 2024
Logic, Physics, Silicon, Telecommunications, Polymer, Conference, PAM4, LightWave 3D, EO, Telescopic sight

ENGLEWOOD, Colo., March 25, 2024 /PRNewswire/ -- Lightwave Logic, Inc. (NASDAQ: LWLG), a technology platform company leveraging its proprietary electro-optic (EO) polymers to transmit data at higher speeds with less power in a small form factor, today announced that Chairman and Chief Executive Officer Dr. Michael Lebby discussed the latest world-class results for the company's 200Gbps heterogeneous polymer/silicon photonic modulator at a record low drive voltage at the 2024 Optical Fiber Conference (OFC) in San Diego, California. OFC is a leading international conference bringing together the complete value chain of fiber communications, datacentric, and telecommunications industrial players.

Key Points: 
  • OFC is a leading international conference bringing together the complete value chain of fiber communications, datacentric, and telecommunications industrial players.
  • The results were shown in Dr. Lebby's presentation on March 24, 2024 during an industry workshop entitled "Will Heterogeneous Integration Meet the Needs of Future Applications?
  • In the presentation, Dr. Lebby discussed the company's latest world-class results based on a novel packaged heterogeneous polymer EO modulator design leveraging silicon photonics devices from a 200mm production foundry process and Lightwave Logic's proprietary high temperature, high performance EO Polymer material.
  • Each modulator was operated at 100GBaud PAM4 and achieved all drive voltages below 2V, and as low as 1V which is excellent for low power operation.

Acetic Acid Market Projected to Reach $12.33 billion by 2030 - Exclusive Report by 360iResearch

Retrieved on: 
Friday, March 22, 2024
Health, Taste, BP, Textile, Growth, Longevity, Acetic acid, SABIC, Process engineering, Vegetable, Intelligence, Polymer, INEOS, Celanese, Food quality, Edible, Food preservation, MAP, Concentration, Concentrated, Investment, Water, Safety, Crystallization, Spectrum, Food safety, Table

The acetic acid market has flourished in the Americas and is driven by its demand across the packaging, textiles, and food sectors, with significant advancements toward sustainable practices.

Key Points: 
  • The acetic acid market has flourished in the Americas and is driven by its demand across the packaging, textiles, and food sectors, with significant advancements toward sustainable practices.
  • These dynamics highlight the global acetic acid market's resilience and potential for future growth amidst evolving environmental and technological landscapes.
  • We proudly unveil ThinkMi, a cutting-edge AI product designed to transform how businesses interact with the Acetic Acid Market.
  • "Dive into the Acetic Acid Market Landscape: Explore 192 Pages of Insights, 572 Tables, and 26 Figures"

Acetic Acid Market Projected to Reach $12.33 billion by 2030 - Exclusive Report by 360iResearch

Retrieved on: 
Friday, March 22, 2024
Health, Taste, BP, Textile, Growth, Longevity, Acetic acid, SABIC, Process engineering, Vegetable, Intelligence, Polymer, INEOS, Celanese, Food quality, Edible, Food preservation, MAP, Concentration, Concentrated, Investment, Water, Safety, Crystallization, Spectrum, Food safety, Table

The acetic acid market has flourished in the Americas and is driven by its demand across the packaging, textiles, and food sectors, with significant advancements toward sustainable practices.

Key Points: 
  • The acetic acid market has flourished in the Americas and is driven by its demand across the packaging, textiles, and food sectors, with significant advancements toward sustainable practices.
  • These dynamics highlight the global acetic acid market's resilience and potential for future growth amidst evolving environmental and technological landscapes.
  • We proudly unveil ThinkMi, a cutting-edge AI product designed to transform how businesses interact with the Acetic Acid Market.
  • "Dive into the Acetic Acid Market Landscape: Explore 192 Pages of Insights, 572 Tables, and 26 Figures"

Hokkaido University finds a new route to recyclable polymers from plants

Retrieved on: 
Thursday, March 21, 2024
Environment, Assistant, Recycling, Polymer, Research, ACS Macro Letters, Artificial intelligence, Hokkaido University, Plant, LGO, Computational chemistry, Plastic, Biomass

SAPPORO, Japan, March 21, 2024 /PRNewswire/ -- Researchers at Hokkaido University have taken a significant step forward in the drive to make recyclable yet stable plastics from plant materials. This is a key requirement to reduce the burden of plastic pollution in the environment. They developed a convenient and versatile method to make a variety of polymers from chemicals derived from plant cellulose; crucially, these polymers can be fully recycled. The method was published in the journal ACS Macro Letters.

Key Points: 
  • Cellulose, abundantly available from plant biomass, can be converted into molecules used to make a new class of recyclable polymers, to sustainably replace some plastics.
  • SAPPORO, Japan, March 21, 2024 /PRNewswire/ -- Researchers at Hokkaido University have taken a significant step forward in the drive to make recyclable yet stable plastics from plant materials.
  • They developed a convenient and versatile method to make a variety of polymers from chemicals derived from plant cellulose; crucially, these polymers can be fully recycled.
  • To make their new polymers, the Hokkaido team used two commercially available small molecules, levoglucosenone (LGO) and dihydrolevoglucosenone (Cyrene), which are made from cellulose.

Hokkaido University finds a new route to recyclable polymers from plants

Retrieved on: 
Thursday, March 21, 2024
Environment, Assistant, Recycling, Polymer, Research, ACS Macro Letters, Artificial intelligence, Hokkaido University, Plant, LGO, Computational chemistry, Plastic, Biomass

SAPPORO, Japan, March 21, 2024 /PRNewswire/ -- Researchers at Hokkaido University have taken a significant step forward in the drive to make recyclable yet stable plastics from plant materials. This is a key requirement to reduce the burden of plastic pollution in the environment. They developed a convenient and versatile method to make a variety of polymers from chemicals derived from plant cellulose; crucially, these polymers can be fully recycled. The method was published in the journal ACS Macro Letters.

Key Points: 
  • Cellulose, abundantly available from plant biomass, can be converted into molecules used to make a new class of recyclable polymers, to sustainably replace some plastics.
  • SAPPORO, Japan, March 21, 2024 /PRNewswire/ -- Researchers at Hokkaido University have taken a significant step forward in the drive to make recyclable yet stable plastics from plant materials.
  • They developed a convenient and versatile method to make a variety of polymers from chemicals derived from plant cellulose; crucially, these polymers can be fully recycled.
  • To make their new polymers, the Hokkaido team used two commercially available small molecules, levoglucosenone (LGO) and dihydrolevoglucosenone (Cyrene), which are made from cellulose.

Huizhou Boeko Selects Lummus for New Isobutane Dehydrogenation Plant in China

Retrieved on: 
Wednesday, March 20, 2024
Growth, Clariant, Polymer, IC4, MTA, Carbon, Lummus, MTBE, Engineering, Petrochemical

HOUSTON, March 20, 2024 /PRNewswire/ -- Lummus Technology, a global provider of process technologies and value-driven energy solutions, announced Huizhou Boeko Materials Co. Ltd., has selected Lummus' iC4 CATOFIN® technology for the dehydrogenation of isobutane for their plant in Huizhou City, China. Notably, this is the first time Huizhou Boeko will license Lummus' CATOFIN technology at this site.

Key Points: 
  • Award marks inaugural work for Huizhou Boeko plant in Huizhou City, delivering Lummus' CATOFIN technology for reliable, lower cost, energy efficient on-stream production
    HOUSTON, March 20, 2024 /PRNewswire/ -- Lummus Technology, a global provider of process technologies and value-driven energy solutions, announced Huizhou Boeko Materials Co. Ltd., has selected Lummus' iC4 CATOFIN® technology for the dehydrogenation of isobutane for their plant in Huizhou City, China.
  • Notably, this is the first time Huizhou Boeko will license Lummus' CATOFIN technology at this site.
  • "Lummus' CATOFIN technology offers the industry's most reliable, low cost and low carbon solution, from which Huizhou Boeko can leverage their expertise and production capabilities to secure a competitive advantage in the market," said Romain Lemoine, Chief Business Officer of Polymers and Petrochemicals, Lummus Technology.
  • Lummus is the exclusive licensor for the CATOFIN and CATADIENE technologies, which utilize Clariant's high-performance catalysts.