Browsing Chemical engineering by Title
Now showing items 41-60 of 256
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Data Classification in High Throughput Screening
Redox flow batteries offer an economical, low vulnerability means to store electrical energy at grid scale. Most commercial flow batteries use concentrated sulphuric acid with vanadium as the active redox material. While ... -
Data Science Approaches for Tracking Electrochemical Reactions and Phase Transformations
Battery characterization techniques give critical information about what is happening inside the battery. However, fully utilizing the data obtained via battery characterization, particularly battery cycling can be difficult, ... -
Data-driven Strategies to Predict Ruthenium Complex Photocleavage Efficiency
Ruthenium (Ru) complex-based photocages have shown great potential in photochemotherapy due to their activation by red- and infrared light. However, different Ru complexes exhibit dramatically varying quantum yields in the ... -
De-inking toner-printed paper by selective agglomeration
(1996)Laser printers and copy machines produce an increasing quantity of difficult-to-recycle paper. In the last several years, the need for an effective process to de-ink the toner has prompted a number of facilities to try ... -
Deep Inverse Design, Discovery, and Optimization of Molecular Structure through 3D Invariant and Multimodal Machine Learning
Accelerating the discovery of novel materials and molecules with desired functionalities is crucial for continuing our progression towards technical solutions to some of the world’s most pressing issues including disease ... -
Design and Synthesis of Nanostructured Peptoids Assemblies that Mimic Natural Carbonic Anhydrases
Artificial Carbonic Anhydrase (CA) mimics that resemble natural CA have gained increasing attention recently due to their low-cost synthesis, high tunability, and high efficiency. However, it remains a significant challenge ... -
Design of gRNA Expression Systems and Characterization of CRISPR Transcriptional Networks in Saccharomyces cerevisiae
The incredibly complex, nuanced, and robust processes happening within cells allow them to adapt to their environment, proliferate, and communicate with their neighbors. These processes are mediated by a network of ... -
Design, Analysis, and Translation of 3D Hydrodynamic Tweezer Microeddies
(2013-04-17)The drive to understand the behavior and dynamics of single cells and their connection to population-based properties has prompted the microfluidic community to develop diverse micro-trapping array systems. We present ... -
Design, Development, and Operation of an Electrochemical Urea Removal Reactor for the Application of Portable Dialysis
Electrochemical investigations of Pt and Ni-based catalysts were performed in pursuit of designing a reactor capable of oxidizing 15 grams of urea per day for the use of portable dialysis. The electrocatalytic experiments ... -
Designing sequence-defined biomimetic peptoids for self-assembly
Nanostructured inorganic materials provide unique properties in various fields, including plasmonics, catalysis, sensing, and optics compared with their bulk counterparts. Inspired by sophisticated nanostructures created ... -
Develop a Supercapacitor Real Time Model for PHIL Simulation
Energy generation devices, like solar cells and fuel cells, can rarely meet all of the dynamic behavior of variable loads, which results in load performance limitations. Therefore, energy storage devices, like batteries ... -
Developing a Simulation Framework for Modeling Biomolecules in Ionic Liquids
First, we describe the development of a protocol to quickly parameterize and validate ionic liquid force fields. Simulations that use these force fields are shown to accurately predict several thermopysical properties of ... -
Developing a Visualization Tool for Unsupervised Machine Learning Techniques on *Omics Data
Machine learning is a powerful technique to analyze massive *omics data. Combined with visualization approaches, such as gene expression profile graphs, machine learning algorithms have found great use in exploring the ... -
Developing Low Fouling Peptides and Zwitterionic Materials for Biomedical Applications
This dissertation is a compilation of efforts aimed at developing mixed charge and zwitterionic materials to prevent biofouling in biomedical applications. Peptides are considered for use as natural low fouling materials ... -
Developing Multifunctional Surface Chemistry for Plasmonic Biosensing in Complex Media
During the past decades, plasmonic sensors have been explored extensively due to their ultra-sensitivity and emerged as a new generation of analytical tools. Two of the most widely used and studied plasmonic sensors are ... -
Developing non-fouling and lubricious surface coatings for orthopedic implants
Foreign body response (FBR) remains a persistent challenge limiting the longevity of medical devices. Upon implantation, non-specific protein adsorption on the implant surface can trigger FBR and result in fouling. This ... -
Developing Nonfouling Zwitterionic Coating for Biomedical Applications
During the past decades, the demand for biomaterials with good biocompatibility is increasing with the rapid development of advanced medical technologies, such as biosensors, implantable chips, hemodialysis and biopharmaceutical ... -
Developing Zwitterionic Hydrogel for Biomedical Applications
Ultra-low fouling zwitterionic hydrogels offer unique advantages over conventional biomaterials in biomedical applications. By exclusively using zwitterionic monomer and crosslinker, pure zwitterionic hydrogels can be ... -
Development and Application of Novel Optoelectronic Materials for Photodetectors and Solar Cells
Modern society has shown increasing demands of optoelectronic devices with lightweight, flexible, and scalable features. Novel materials such as conducting polymer and perovskite are developed to replace the traditional ... -
Development and Use of Molecular Simulation Tools to Study the Structure and Function of Biomolecules at Interfaces
Predicting and controlling the biophysical chemistry of protein/host interactions remains a pressing challenge of high fundamental interest across many subfields in chemistry, engineering, and medicine. Our ability to ...