TOP >> THE JOHNS HOPKINS UNIVERSITY >> Chemical engineering
 
Browse Institutions
You are viewing titles for THE JOHNS HOPKINS UNIVERSITY in the Chemical engineering available through the UMI Dissertations & Thesis Gradwoorks site
 
Polymer-based approaches for the therapy of prostate cancer
 Self-assembling triblock proteins for biofunctional surface modification
 
The use of microarrays and related genomics tools to reverse engineer mammalian cell culture targeting specific cellular features with application in biotechnology
 Mucus penetrating therapeutic nanosystems
 
Metabolic engineering of insect & mammalian cells to improve product quality
 Applications of anti-apoptosis genes to extend cell culture bioprocessing
 
Receptor-mediated intercellular interactions pertinent to infection and inflammation under shear
 Magnetic nanotubes and nanoporous gold nanowire sensors
 
Thermodynamics of lattice fluids: Theory and simulation
 3D patterned self-assembling, untethered microdevices
 
Cellular engineering strategies for improvement of mammalian cell phenotypes in commercial applications
 Directed assembly of complex shaped particles at fluid interfaces
 
The flow of non-uniform suspensions
 Fibrin(ogen) is a CD44 ligand on colon carcinoma cells: Biochemical and biophysical characterization, growth factor involvement, and diagnostic applications
 
Characterization and targeting of oncogenic PIK3CA signaling
 The biophysics of germline determination in the C. elegans early embryo
 
Biodegradable drug-loaded mucus penetrating nanoparticles for lung cancer
 Analysis and metabolic engineering of the N-glycosylation lipid-linked oligosaccharide synthesis pathway in mammalian cell culture systems
 
Compression in adsorbing systems
 Non-associating heterodimeric DNA methyltransferases as a platform for developing designer methyltransferases
 
Additions to recombinant proteins for delivery and function
Creation of a genetically encoded band-pass filter for enzyme activity and its application to combinatorial protein engineering
 
Characterizing the adhesion mechanics between the human immunodeficiency virus and host cells
 Computational studies of diffusion in fluids
 
Predicting the structure and function of protein mutants
 Computational antibody structure prediction and antibody-antigen docking
 
Microparticle assembly and contact line dynamics
 Characterizing cytoskeleton-mediated biophysical defects in laminopathic disease models
 
Electric field mediated colloidal assembly and control
 First principles calculations of ceramics surfaces and interfaces: Examples from beta-silicon nitride and alpha-alumina
 
Applying proteomics to interpret physiological processes in Chinese hamster ovary cells, Danio rerio and Drosophila melanogaster
 Heterogeneity and statistical analysis of the microrheology of polymer gels
 
Thermodynamics of metal binding to protein sites
 The role of nucleo-cytoskeletal connections in disease and development
 
Regularizing free energy calculations to study ion specific effects in biology
 Reconfigurable self-folding microdevices
 
Development of novel adhesion and migration assays for cancer research
 Designed ankyrin repeat protein (DARPin) based platform to study biomolecular interactions and develop biosensors
 
Engineering vascular networks using synthetic matrices
 Assembly of rod-like particles at fluid interfaces
 
New nanoparticle-based systems for pulmonary drug and gene delivery
 Cellular engineering strategies to improve biotherapeutic protein production in mammalian cell culture
 
From Fundamental Nanoporosity Evolution to Electrocatalytically Active Materials --Development of Nanoporous Metal Catalysts for the Cathodic Oxygen Reduction Reaction
 Vector chromatography of suspended particles in 1D-periodic systems
 
Design, development and characterization of microfluidic media for continuous size-based separation of particles
 The multi-faceted role of selectin ligands in tumor cell metastasis