Chip Industry’s Technical Paper Roundup: Apr. 10


New technical papers recently added to Semiconductor Engineering’s library: [table id=92 /] If you have research papers you are trying to promote, we will review them to see if they are a good fit for our global audience. At a minimum, papers need to be well researched and documented, relevant to the semiconductor ecosystem, and free of marketing bias. There is no cost involved for us p... » read more

Research Bits: April 4


Wet-like plasma etching Researchers from Nagoya University and Hitachi developed a new etch method called wet-like plasma etching that combines the selectivity of wet etching with the controllability of dry etching. The researchers say the technique will make it possible to etch complex structures such as metal carbides consisting of titanium (Ti) and aluminum (Al), such as TiC or TiAlC, wh... » read more

Chip Industry’s Technical Paper Roundup: Apr. 4


New technical papers recently added to Semiconductor Engineering’s library: [table id=90 /] If you have research papers you are trying to promote, we will review them to see if they are a good fit for our global audience. At a minimum, papers need to be well researched and documented, relevant to the semiconductor ecosystem, and free of marketing bias. There is no cost involved for us p... » read more

Research Bits: March 28


Modeling how the nose smells The first 3D molecular-level picture of how an odor molecule binds to and activates an odorant receptor (OR) on olfactory cells in the nose may help us understanding and eventually be used to build a map of all the receptors. Scientists at UC San Francisco (UCSF) used cryo-electron microscopy (cryo-EM), which UCSF developed, to take a moving picture of the wiggly r... » read more

Chip Industry’s Technical Paper Roundup: Mar. 28


New technical papers recently added to Semiconductor Engineering’s library: [table id=89 /] If you have research papers you are trying to promote, we will review them to see if they are a good fit for our global audience. At a minimum, papers need to be well researched and documented, relevant to the semiconductor ecosystem, and free of marketing bias. There is no cost involved for us p... » read more

Research Bits: March 21


Micropatterning with sugar A scientist at the National Institute of Standards and Technology (NIST) discovered a transfer printing process that can deposit microcircuit patterns on curved and textured surfaces using sugar candy. Transfer printing methods, such as flexible tapes, are often used for surfaces that are difficult to directly print on. But they have difficulty with conforming to ... » read more

Chip Industry’s Technical Paper Roundup: Mar. 21


New technical papers recently added to Semiconductor Engineering’s library: [table id=88 /] If you have research papers you are trying to promote, we will review them to see if they are a good fit for our global audience. At a minimum, papers need to be well researched and documented, relevant to the semiconductor ecosystem, and free of marketing bias. There is no cost involved for us ... » read more

Research Bits: March 14


Shift register-in-memory architecture Researchers at the Singapore University of Technology and Design propose a new reconfigurable shift register-in-memory architecture for devices that can work both as a reconfigurable memory component and as a programmable shift register. The device is based on phase-change alloys, which can switch reversibly between the glassy amorphous state and the or... » read more

Chip Industry’s Technical Paper Roundup: Mar. 14


New technical papers recently added to Semiconductor Engineering’s library: [table id=86 /] If you have research papers you are trying to promote, we will review them to see if they are a good fit for our global audience. At a minimum, papers need to be well researched and documented, relevant to the semiconductor ecosystem, and free of marketing bias. There is no cost involved for us ... » read more

Research Bits: March 6


2D TMDs on silicon Engineers at MIT, University of Texas at Dallas, Institute for Basic Science, Sungkyunkwan University, Washington University in St. Louis, University of California at Riverside, ISAC Research, and Yonsei University found a way to grow 2D materials on industry-standard silicon wafers while preserving their crystalline form. Using a new “nonepitaxial, single-crystalline g... » read more

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