The small Team Speed Duffel is built for superior team functionality for the consummate team player! Adjustable removable shoulder strap with padded air-mesh shoulder pad. Wrapped haul handles let you carry your gear comfortably. Classic U-shape two-way opening into main compartment. Additional side haul handle allows for storage in a locker or quick-access to your bag in an overhead compartment. Interior valuables zippered pocket for your convenience. The large easy-access front pocket with key fob is perfect for quickly stowing items. On one end-cap of the duffel is a freshPAK ventilated compartment great for keeping smelly shoes and gear separate from the rest of your stuff. On the other side of the bag is a zippered mesh drop pocket for additional storage. The CLIMAPROOF water-resistant bottom of the bag protects against a wet field or gym floor. Screenprinted adidas brandmark and fast 3-Stripes logo detail. Dimensions: 24 x 11.5 x 12 Fabric: 100% polyester oval rip-stop 600D polyester Imported. Measurements: Bottom Width: 21 in Depth: 11 in Height: 11 1 2 in Strap Length: 56 in Strap Drop: 26 in Handle Length: 25 1 2 in Handle Drop: 10 in Weight: 1 lb 6.2 oz
Issue Small adidas Team Duffel Black Bags Duffel TZfp46pwq

AbstractAbstract

A convenient and inherently more secure communication channel for encoding messages via specifically designed molecular keys is introduced by combining advanced encryption standard cryptography with molecular steganography. The necessary molecular keys require large structural diversity, thus suggesting the application of multicomponent reactions. Herein, the Ugi four-component reaction of perfluorinated acids is utilized to establish an exemplary database consisting of 130 commercially available components. Considering all permutations, this combinatorial approach can unambiguously provide 500,000 molecular keys in only one synthetic procedure per key. The molecular keys are transferred nondigitally and concealed by either adsorption onto paper, coffee, tea or sugar as well as by dissolution in a perfume or in blood. Re-isolation and purification from these disguises is simplified by the perfluorinated sidechains of the molecular keys. High resolution tandem mass spectrometry can unequivocally determine the molecular structure and thus the identity of the key for a subsequent decryption of an encoded message.

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