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Full-Text Articles in Chemistry
Library Of Microcrystalline Tests For Novel Psychoactive Substances, Matthew Quinn, Michael Cain Jr., Monica Joshi
Library Of Microcrystalline Tests For Novel Psychoactive Substances, Matthew Quinn, Michael Cain Jr., Monica Joshi
Chemistry Faculty Publications
A microcrystalline test is a precipitation reaction between a drug and a reagent, forming an insoluble drug-reagent complex that is unique to that specific test. These tests are quick, requiring minimal sample preparation and can be non-destructive. Therefore, they can be used as preliminary and confirmatory tests with expertise. Microcrystalline tests are one of the oldest analytical chemistry practices and their use for classic drugs such as cocaine, heroin and amphetamines is well-documented. However, there is very limited research on microcrystalline tests for the novel compounds encountered by law enforcement today. This research is an effort to increase understanding and …
Controlled Microfabrication Of High-Aspect-Ratio Structures In Silicon At The Highest Etching Rates: The Role Of H2o2 In The Anodic Dissolution Of Silicon In Acidic Electrolytes, Chiara Cozzi, Giovanni Polito, Kurt W. Kolasinski, Giuseppe Barillaro
Controlled Microfabrication Of High-Aspect-Ratio Structures In Silicon At The Highest Etching Rates: The Role Of H2o2 In The Anodic Dissolution Of Silicon In Acidic Electrolytes, Chiara Cozzi, Giovanni Polito, Kurt W. Kolasinski, Giuseppe Barillaro
Chemistry Faculty Publications
In this work the authors report on the controlled electrochemical etching of high-aspect-ratio (from 5 to 100) structures in silicon at the highest etching rates (from 3 to 10 µm min−1) at room temperature. This allows silicon microfabrication entering a previously unattainable region where etching of high-aspect-ratio structures (beyond 10) at high etching rate (over 3 µm min−1) was prohibited for both commercial and research technologies. Addition of an oxidant, namely H2O2, to a standard aqueous hydrofluoric (HF) acid electrolyte is used to dramatically change the stoichiometry of the silicon dissolution process under anodic biasing without loss of etching control …
Regenerative Electroless Etching Of Silicon, Kurt W. Kolasinski, Nathan J. Gimbar, Haibo Yu, Mark Aindow, Ermei Mäkilä, Jarno Salonen
Regenerative Electroless Etching Of Silicon, Kurt W. Kolasinski, Nathan J. Gimbar, Haibo Yu, Mark Aindow, Ermei Mäkilä, Jarno Salonen
Chemistry Faculty Publications
Regenerative electroless etching (ReEtching), described herein for the first time, is a method of producing nanostructured semiconductors in which an oxidant (Ox1) is used as a catalytic agent to facilitate the reaction between a semiconductor and a second oxidant (Ox2) that would be unreactive in the primary reaction. Ox2 is used to regenerate Ox1, which is capable of initiating etching by injecting holes into the semiconductor valence band. Therefore, the extent of reaction is controlled by the amount of Ox2 added, and the rate of reaction is controlled by the injection rate of Ox2. This general strategy is demonstrated specifically …
Charge Transfer At The Liquid/Solid Interface To Affect Nanostructure Formation, Kurt W. Kolasinski
Charge Transfer At The Liquid/Solid Interface To Affect Nanostructure Formation, Kurt W. Kolasinski
Chemistry Faculty Publications
No abstract provided.