Broadband dual-frequency comb spectroscopy in a rapid compression machine.

We demonstrate fiber mode-locked dual-frequency comb spectroscopy for broadband, high-resolution measurements in a rapid compression machine (RCM). We apply an apodization technique to improve the short-term signal-to-noise-ratio (SNR), which enables broadband spectroscopy at combustion-relevant timescales. We measure the absorption on 24345 individual wavelength elements (comb teeth) between 5967 and 6133 cm at 704 µs time resolution during a 12 ms compression of a CH-N mixture.

The Effects of Air Flow Rates, Secondary Air Inlet Geometry, Fuel Type, and Operating Mode on the Performance of Gasifier Cookstoves.

Development of biomass cookstoves that reduce emissions of CO and PM2.5 by more than 50% and 95%, respectively, compared to a three-stone fire has been promoted as part of efforts to reduce exposure to household air pollution (HAP) among people that cook with solid fuels. Gasifier cookstoves have attracted interest because some have been shown to emit less CO and PM2.

The microwell control of embryoid body size in order to regulate cardiac differentiation of human embryonic stem cells.

The differentiation of human embryonic stem cells (hESCs) into cardiomyocytes (CMs) using embryoid bodies (EBs) is relatively inefficient and highly variable. Formation of EBs using standard enzymatic disaggregation techniques results in a wide range of sizes and geometries of EBs. Use of a 3-D cuboidal microwell system to culture hESCs in colonies of defined dimensions, 100-500 microm in lateral dimensions and 120 microm in depth, enabled formation of more uniform-sized EBs.

Engineering the stem cell microenvironment.

Multipotent stem cells in the body facilitate tissue regeneration, growth, and wound healing throughout life. The microenvironment in which they reside provides signals that direct these progenitors to proliferate, differentiate, or remain dormant; these factors include soluble molecules, the extracellular matrix, neighboring cells, and physical stimuli. Recent advances in the culture of embryonic stem cells and adult progenitors necessitate an increased understanding of these phenomena.

3-D microwell culture of human embryonic stem cells.

Human embryonic stem cells (hESCs) have the ability to proliferate indefinitely and differentiate into each of the embryonic cell lineages. Great care is required to maintain undifferentiated hESC cultures since spontaneous differentiation often occurs in culture, presumably resulting from soluble factors, cell-cell contact, and/or cell-matrix signaling. hESC differentiation is typically stimulated via generation of embryoid bodies (EBs) and lineage commitment of individual cells depends upon numerous cues throughout the EB environment, including EB shape and size.

Electroporation of human embryonic stem cells: Small and macromolecule loading and DNA transfection.

Cryopreservation, directed differentiation, and genetic manipulation of human embryonic stem cells (hESCs) all require the transport of exogenous small molecules, proteins, or DNA into the cell. The absence of standard small and macromolecule loading techniques in hESCs as well as the inadequacies of current DNA transfection techniques have led us to develop electroporation as an efficient loading and transfection methodology. The electroporation parameters of pulse voltage, duration, and number have been explored and evaluated in terms of cell viability, molecular loading, and transfection efficiency on a per cell basis.