John S. Renshaw scite author profile

John S. Renshaw

5Publications

46Citation Statements Received

53Citation Statements Given

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Affiliations

San Antonio Military Medical Center, Georgia Institute of Technology, State Street (United States)

Publications

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Investigation of the Mechanism Resulting in low Resistance Ag Thick-Film Contact to Si Solar Cells in the Context of Emitter Doping Density and Contact Firing for Current-Generation Ag Paste

Cooper

Tate

Renshaw

et al. 2014

IEEE J. Photovoltaics

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Screen-printed thick-film Ag metallization has become highly successful in crystalline Si (c-Si) photovoltaics. However, a complete understanding of the mechanism resulting in low resistance contact is still lacking. In order to shed light on this mechanism for current-generation Ag paste, Si solar cells were fabricated using a range of emitter doping densities and contact firing conditions. Low resistance contact was found to vary as a function of emitter surface P concentration ([P su rface ]) and peak firing temperature. Scanning electron microscope (SEM) analysis revealed thin interfacial glass films (IGF) under the bulk Ag gridline. SEM analysis also showed increasing Ag crystallite density as both emitter [P su rface ] and peak firing temperature increased. Two mechanisms are proposed in forming low resistance contact to highly doped emitters: 1) formation of ultrathin IGF and/or nano-Ag colloids at low firing temperature, and 2) formation of Ag crystallites at high firing temperature. However, on lightly doped emitters, low resistance contact was achieved only at higher firing temperatures, concomitant with increasing Ag crystallite density, and suggests that thin IGF decorated with nano-Ag colloids may not be sufficient for low resistance contact to lightly doped emitters.

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Understanding and Use of IR Belt Furnace for Rapid Thermal Firing of Screen-Printed Contacts to Si Solar Cells

Cooper

Ebong

Renshaw

et al. 2010

IEEE Electron Device Lett.

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Device optimization for screen printed interdigitated back contact solar cells

Renshaw

Rohatgi

2011

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Chronic Lymphocytic Leukemia as an Unusual Cause of Rapid Airway Compromise

Bersabe

Romain

Ezzell

et al. 2017

Case Reports in Oncological Medicine

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Chronic Lymphocytic Leukemia (CLL) is the most prevalent form of non-Hodgkin's lymphoma (NHL) in Western countries predominantly affecting adults over the age of 65. CLL is commonly indolent in nature but can present locally and aggressively at extranodal sites. Although CLL may commonly present with cervical lymphadenopathy, manifestation in nonlymphoid regions of the head and neck is not well described. CLL causing upper airway obstruction is even more uncommon. We describe a case of a patient with known history of CLL and stable lymphocytosis that developed an enlarging lymphoid base of tongue (BOT) mass resulting in rapid airway compromise.

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3D-modeling of a back point contact solar cell structure with a selective emitter

Renshaw

Kang

Meemongkolkiat

et al. 2009

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John S. Renshaw

Investigation of the Mechanism Resulting in low Resistance Ag Thick-Film Contact to Si Solar Cells in the Context of Emitter Doping Density and Contact Firing for Current-Generation Ag Paste

Understanding and Use of IR Belt Furnace for Rapid Thermal Firing of Screen-Printed Contacts to Si Solar Cells

Device optimization for screen printed interdigitated back contact solar cells

Chronic Lymphocytic Leukemia as an Unusual Cause of Rapid Airway Compromise

3D-modeling of a back point contact solar cell structure with a selective emitter

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