Alkyl / aryl-alkali metal polysulfides as room-temperature liquid and sulfur-dissolving electrolytes for alkali metal-sulfur batteries
DE102014015110A1
Semiconductor arrangement with elelectron-hole-pair generation in low-doped Silliziumschichten as reversible storage of electrical energy with high energy density
DE102014006605A1
Semiconductor arrangement of P- and N-type semiconductors with a layer for generating electron-hole pairs as reversible storage of electrical energy with high energy density
DE102014004769A1
Semiconductor device with layer for generating electron-hole pairs as reversible storage of electrical energy with high energy density
DE102014000115A1
Very high energy density capacitors with a very high surface area open-pore electrode and a high dielectric constant semiconductor
DE102014000116A1
Electrical and electronic components containing low-melting dielectrics of very high dielectric constants
DE102013010113A1
Reversible electric storage of high energy density based on polycrystalline solar silicon
DE102013007474A1
Arrangement for the reversible storage of electrical energy on the basis of two semiconductors and a ferroelectric semiconductor of low melting temperature and opposite conductivity type
DE102013000118A1
Electrolytic capacitor has current collectors, open porous electrodes made of n-type semiconductor and metallic conductor, liquid electrolyte and porous spacer for separating electrodes
DE102012022688A1
Capacitor for use during generation of electricity, has current collectors, high surface area porous electrode and semiconductor, where electrode is electrically and conductively connected to current collectors
DE102012022686A1
Capacitive electrical storage for use in fossil fuel propelled vehicle, has permanent double-layers arranged in fixed semiconductor, where layers change as counter electrode, and are operated with working voltages larger than specific value
DE102012015645A1
Reversible electrical energy storage device i.e. lithium-ion battery, for storing electrical energy for operating vehicle, has isolating narrow depletion zone formed in semiconducting volume that comprises wide band gap
DE102012010302A1
Solid body arrangement for conversion of thermal power into electrical power to produce temperature difference for air conditioning of e.g. home, has emitter located at arrester hot side, and collector layer contacted by another arrester
DE102012005082A1
Semiconductors useful as components of thermionic converters, thermionic cooling devices, photovoltaic cells, light emitting diodes, light areas or flat panel displays, comprise band gaps having a specific work function
DE102012003467A1
Solar cell, has tunnel layer made of non-conductive rare earth oxides or rare earth oxy chalcogenides, and collector layer comprising energy difference between electron affinity and donor level, where difference is lesser than electron volt
DE102012000718A1
Reversible electrical energy storage device such as reversible battery for fossil fuel propelled vehicle, has non-conductive, insulating depletion region that is formed in electride portion of n-type semiconductor portion
DE102012000084A1
High energy density reversible electrical energy storage structure for vehicle, has P-type and N-type semiconductors which are penetrated with each other in form of complementary and electrically conductive coherent network
DE102011112730A1
Reversible electrical energy storage for use as e.g. reversible battery for fuel-driven vehicle, has non-conductive isolating depletion zone preventing charge breakdowns under operating conditions and charge equalization between volumes
DE102011104749A1
Reversible electric energy accumulator of high energy density useful for storing electric charges in volume of two compact semiconductor electrodes of equal conductivity, comprises flat and compact semiconductors
DE102011102892A1
Combination of e.g. lithium-ion battery and film capacitor for reversibly storing electrical power for fossil fuel-powered vehicle, has semiconductor, where electrochemical processes are carried out vice versa during discharging
